0
$ID = NONE
$CATEGORY = NONE

1
$ID = GENERIC_SET
$NAME = Generic Set
$DTYPE = SET
$CATEGORY = NONE

2
$ID = GENERIC_ENTITY
$NAME = Genreric Entity
$DTYPE = ENTITY
$CATEGORY = NONE


3
$ID = IMPORTED_AXIS
$NAME = Imported Axis
$DTYPE = ENTITY
$CATEGORY = AXIS


4
$ID = IMPORTED_LOAD
$NAME = Imported Load
$DTYPE = ENTITY
$CATEGORY = LOAD


5
$ID = IMPORTED_MASS
$NAME = Imported Mass
$DTYPE = ENTITY
$CATEGORY = MASS


6
$ID = IMPORTED_MATERIAL
$NAME = Imported Material
$DTYPE = ENTITY
$CATEGORY = MATERIAL


7
$ID = IMPORTED_RESTRAINT
$NAME = Imported Restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT


8
$ID = IMPORTED_PROPERTY
$NAME = Imported Property
$DTYPE = ENTITY
$CATEGORY = PROPERTY

9
$ID = COMBINED_LOAD
$NAME = Combined Load
$DTYPE = ENTITY
$CATEGORY = LOAD
$PARENT = LOADS

10
$ID = COMBINED_MASS
$NAME = Combined Mass
$DTYPE = ENTITY
$CATEGORY = MASS
$PARENT = MASSES

11
$ID = COMBINED_RESTRAINT
$NAME = Combined Restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$PARENT = RESTRAINTS

12
$ID = GENERIC_CHARACTERISTIC
$NAME = Generic Characteristic
$DTYPE = CHARACTERISTIC
$VTYPE = INVALID_VALUE
$UNIT = NONE

13
$ID = CHARAC_COLLECTOR_POINTER
$NAME = Charac Collector Pointer
$DTYPE = CHARACTERISTIC
$VTYPE = POINTER
$MTYPE = SCALAR
$UNIT = NONE

14
$ID = ENTITY_COLLECTOR_POINTER
$NAME = Entity Collector Pointer
$DTYPE = CHARACTERISTIC
$VTYPE = POINTER
$MTYPE = SCALAR
$UNIT = NONE

15
$ID = EXPRESSION_POINTER
$NAME = Expression Pointer
$DTYPE = CHARACTERISTIC
$VTYPE = IEXPRESSION
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER_FREQUENCY_DEPENDENT

16
$ID = PHYSICAL_TYPE
$NAME = Physical Type
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE

17
$ID = USER_NUMBER
$NAME = User Number
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE

18
$ID = LOCAL_AXIS
$NAME = Local Axis
$DTYPE = CHARACTERISTIC
$VTYPE = AXIS
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = AXIS_RECTANGULAR_3D_COORDINATE
$PARENT = AXIS_CYLINDRICAL_3D_COORDINATE
$PARENT = AXIS_SPHERICAL_3D_COORDINATE
$PARENT = NODE
$PARENT = LOAD_ENFORCED_DISPLACEMENT
$PARENT = LOAD_ENFORCED_VELOCITY
$PARENT = LOAD_ENFORCED_ACCELERATION
$PARENT = LOAD_POINT_FORCE
$PARENT = LOAD_POINT_MOMENT
$PARENT = LOAD_LINEIC_FORCE
$PARENT = LOAD_SURFACIC_FORCE
$PARENT = LOAD_VOLUMIC_FORCE
$PARENT = LOAD_TRANSLATIONAL_VELOCITY
$PARENT = LOAD_TRANSLATIONAL_ACCELERATION
$PARENT = LOAD_ROTATION_FORCE
$PARENT = MASS_POINT_MASS
$PARENT = LOAD_FUNCTION
$PARENT = TRANSFER_FUNCTION
$PARENT = CROSSPOWER
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_MOVING_BELT
$PARENT = ELEMENT_SPRING_3D
$PARENT = ELEMENT_SPRING_3D_TRANSLATION
$PARENT = ELEMENT_DAMPER_3D
$PARENT = ELEMENT_DAMPER_3D_THERMAL
$PARENT = ELEMENT_CONTACT_3D_NODAL
$PARENT = ELEMENT_CONSTRAINT_3D_MEAN
$PARENT = ELEMENT_CONSTRAINT_3D_MEAN_ROTATION
$PARENT = ELEMENT_CONSTRAINT_3D_MEAN_TRANSLATION
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID_TRANSLATION
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID_COINCIDENCE
$PARENT = ELEMENT_CONSTRAINT_3D_SPLINE
$PARENT = MATERIAL_ISOTROPIC
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_SHELL_3D
$PARENT = PROPERTY_SHELL_3D_COMPOSITE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$PARENT = PROPERTY_MEMBRANE_3D
$PARENT = PROPERTY_SHEAR_PANEL_3D
$PARENT = PROPERTY_CONTACT_3D
$PARENT = PROPERTY_SPRING_3D
$PARENT = PROPERTY_SPRING_BEAM_3D
$PARENT = PROPERTY_SOLID_3D
$PARENT = PROPERTY_FLUID_3D
$PARENT = PROPERTY_CONSTRAINT_3D_AXIAL
$PARENT = PROPERTY_CONSTRAINT_3D_CABLE
$PARENT = PROPERTY_CONSTRAINT_3D_CONTACT
$PARENT = PROPERTY_CONSTRAINT_3D_FITTING
$PARENT = PROPERTY_CONSTRAINT_3D_MEAN
$PARENT = PROPERTY_CONSTRAINT_3D_RIGID
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER_FREQUENCY_DEPENDENT
$PARENT = PROPERTY_CONSTRAINT_3D_TIGHTENING
$PARENT = RESTRAINT_DISPLACEMENT
$PARENT = RESTRAINT_INITIAL_DISPLACEMENT
$PARENT = RESTRAINT_INITIAL_VELOCITY
$PARENT = RESTRAINT_INITIAL_ACCELERATION
$PARENT = ELEMENT_SPRING_3D_VIRTUAL
$PARENT = ELEMENT_DAMPER_3D_VIRTUAL
$PARENT = ELEMENT_MASS_3D_VIRTUAL
$PARENT = ELEMENT_CONSTRAINT_3D_MEAN_VIRTUAL

19
$ID = OFFSET_AXIS
$NAME = Offset Axis
$DTYPE = CHARACTERISTIC
$VTYPE = AXIS
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MASS_POINT_MASS
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

20
$ID = ORIENTATION_VECTOR
$NAME = Orientation Vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = LENGTH
$PARENT = NODE
$PARENT = ELEMENT_BEAM_3D_BAR2
$PARENT = ELEMENT_BEAM_3D_BAR3
$PARENT = ELEMENT_BEAM_3D_BAR2_CURVED
$PARENT = ELEMENT_SPRING_BEAM_3D_BAR2
$PARENT = ELEMENT_CONTACT_3D_NODAL
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID_COINCIDENCE
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_CONTACT_3D
$PARENT = PROPERTY_CONSTRAINT_3D_AXIAL
$PARENT = PROPERTY_CONSTRAINT_3D_CABLE
$PARENT = PROPERTY_CONSTRAINT_3D_CONTACT
$PARENT = PROPERTY_CONSTRAINT_3D_FITTING
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER
$PARENT = PROPERTY_CONSTRAINT_3D_TIGHTENING

21
$ID = ORIENTATION_POINT
$NAME = Orientation Point
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = LENGTH
$PARENT = ELEMENT_BEAM_3D_BAR2
$PARENT = ELEMENT_BEAM_3D_BAR3
$PARENT = ELEMENT_BEAM_3D_BAR2_CURVED
$PARENT = ELEMENT_SPRING_BEAM_3D_BAR2
$PARENT = ELEMENT_CONTACT_3D_NODAL
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID_COINCIDENCE
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_CONTACT_3D
$PARENT = PROPERTY_CONSTRAINT_3D_AXIAL
$PARENT = PROPERTY_CONSTRAINT_3D_CABLE
$PARENT = PROPERTY_CONSTRAINT_3D_CONTACT
$PARENT = PROPERTY_CONSTRAINT_3D_FITTING
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER
$PARENT = PROPERTY_CONSTRAINT_3D_TIGHTENING

22
$ID = ORIENTATION_NODE
$NAME = Orientation Node
$DTYPE = CHARACTERISTIC
$VTYPE = NODE
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = ELEMENT_BEAM_3D_BAR2
$PARENT = ELEMENT_BEAM_3D_BAR3
$PARENT = ELEMENT_BEAM_3D_BAR2_CURVED
$PARENT = ELEMENT_SPRING_BEAM_3D_BAR2
$PARENT = ELEMENT_CONTACT_3D_NODAL
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID_COINCIDENCE
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_CONTACT_3D
$PARENT = PROPERTY_CONSTRAINT_3D_AXIAL
$PARENT = PROPERTY_CONSTRAINT_3D_CABLE
$PARENT = PROPERTY_CONSTRAINT_3D_CONTACT
$PARENT = PROPERTY_CONSTRAINT_3D_FITTING
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER
$PARENT = PROPERTY_CONSTRAINT_3D_TIGHTENING

23
$ID = ANALYSIS
$NAME = Analysis Set
$DTYPE = SET
$CATEGORY = SET
$CHILD = ANALYSIS_MODEL [!]

24
$ID = MESH
$NAME = Mesh Set
$DTYPE = SET
$CATEGORY = SET
$CHILD = MESH
$CHILD = NODES [0, 1]
$CHILD = VIRTUAL_NODES [0, 1]
$CHILD = ELEMENTS [0, 1]
$CHILD = VIRTUAL_ELEMENTS [0, 1]
$CHILD = SPECIFIED_GROUP
$CHILD = FILTRED_GROUP
$CHILD = IMPLICIT_GROUP
$CHILD = FREE_GROUP
$CHILD = TRANSFORMATION_3D
$PARENT = MESH
$PARENT = ANALYSIS_MODEL

25
$ID = AXES
$NAME = Axis Set
$DTYPE = SET
$CATEGORY = AXIS
$CHILD = AXES
$CHILD = GLOBAL_AXIS
$CHILD = AXIS_RECTANGULAR_3D_NODE
$CHILD = AXIS_RECTANGULAR_3D_COORDINATE
$CHILD = AXIS_CYLINDRICAL_3D_NODE
$CHILD = AXIS_CYLINDRICAL_3D_COORDINATE
$CHILD = AXIS_SPHERICAL_3D_NODE
$CHILD = AXIS_SPHERICAL_3D_COORDINATE
$PARENT = AXES
$PARENT = ANALYSIS_MODEL

26
$ID = NODES
$NAME = Node Set
$DTYPE = SET
$CATEGORY = NODE
$CHILD = NODE
$CHILD = NODE_PROXY
$PARENT = MESH

27
$ID = ELEMENTS
$NAME = Element Set
$DTYPE = SET
$CATEGORY = ELEMENT
$CHILD = TRANSFORMATION_3D
$CHILD = ELEMENT_PROXY
$CHILD = ELEMENT_BAR_3D_BAR2
$CHILD = ELEMENT_BAR_3D_BAR3
$CHILD = ELEMENT_BEAM_3D_BAR2
$CHILD = ELEMENT_BEAM_3D_BAR3
$CHILD = ELEMENT_BEAM_3D_BAR2_CURVED
$CHILD = ELEMENT_SPRING_3D
$CHILD = ELEMENT_SPRING_3D_TRANSLATION
$CHILD = ELEMENT_SPRING_BEAM_3D_BAR2
$CHILD = ELEMENT_DAMPER_3D
$CHILD = ELEMENT_DAMPER_3D_THERMAL
$CHILD = ELEMENT_SHEAR_3D_QUAD4
$CHILD = ELEMENT_SHELL_3D_TRIA3
$CHILD = ELEMENT_SHELL_3D_QUAD4
$CHILD = ELEMENT_SHELL_3D_TRIA6
$CHILD = ELEMENT_SHELL_3D_QUAD8
$CHILD = ELEMENT_PLATE_3D_TRIA3
$CHILD = ELEMENT_PLATE_3D_QUAD4
$CHILD = ELEMENT_MEMBRANE_3D_TRIA3
$CHILD = ELEMENT_MEMBRANE_3D_QUAD4
$CHILD = ELEMENT_MEMBRANE_3D_TRIA6
$CHILD = ELEMENT_MEMBRANE_3D_QUAD8
$CHILD = ELEMENT_PLANE_STRAIN_3D_TRIA3
$CHILD = ELEMENT_PLANE_STRAIN_3D_QUAD4
$CHILD = ELEMENT_PLANE_STRAIN_3D_TRIA6
$CHILD = ELEMENT_PLANE_STRAIN_3D_QUAD8
$CHILD = ELEMENT_DRAWING_3D_BAR2
$CHILD = ELEMENT_DRAWING_3D_TRIA3
$CHILD = ELEMENT_DRAWING_3D_QUAD4
$CHILD = ELEMENT_SOLID_3D_TETRA4
$CHILD = ELEMENT_SOLID_3D_PYRA5
$CHILD = ELEMENT_SOLID_3D_PENTA6
$CHILD = ELEMENT_SOLID_3D_HEXA8
$CHILD = ELEMENT_SOLID_3D_TETRA10
$CHILD = ELEMENT_SOLID_3D_PYRA13
$CHILD = ELEMENT_SOLID_3D_PENTA15
$CHILD = ELEMENT_SOLID_3D_HEXA20
$CHILD = ELEMENT_CONTACT_3D_NODAL
$CHILD = ELEMENT_CONSTRAINT_3D_AXIAL
$CHILD = ELEMENT_CONSTRAINT_3D_JOIN_SHELL_TO_SHELL
$CHILD = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SHELL
$CHILD = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID
$CHILD = ELEMENT_CONSTRAINT_3D_MEAN
$CHILD = ELEMENT_CONSTRAINT_3D_MEAN_ROTATION
$CHILD = ELEMENT_CONSTRAINT_3D_MEAN_TRANSLATION
$CHILD = ELEMENT_CONSTRAINT_3D_RIGID
$CHILD = ELEMENT_CONSTRAINT_3D_RIGID_TRANSLATION
$CHILD = ELEMENT_CONSTRAINT_3D_RIGID_COINCIDENCE
$CHILD = ELEMENT_CONSTRAINT_3D_SPLINE
$CHILD = ELEMENT_FLUID_3D_TETRA4
$CHILD = ELEMENT_FLUID_3D_PYRA5
$CHILD = ELEMENT_FLUID_3D_PENTA6
$CHILD = ELEMENT_FLUID_3D_HEXA8
$PARENT = MESH

28
$ID = VIRTUAL_NODES
$NAME = Virtual Node Set
$DTYPE = SET
$CATEGORY = VIRTUAL_NODE
$CHILD = VIRTUAL_NODE
$PARENT = MESH

29
$ID = VIRTUAL_ELEMENTS
$NAME = Virtual Element Set
$DTYPE = SET
$CATEGORY = VIRTUAL_ELEMENT
$CHILD = ELEMENT_SPRING_3D_VIRTUAL
$CHILD = ELEMENT_DAMPER_3D_VIRTUAL
$CHILD = ELEMENT_DAMPER_3D_THERMAL_VIRTUAL
$CHILD = ELEMENT_MASS_3D_VIRTUAL
$CHILD = ELEMENT_CONSTRAINT_3D_MEAN_VIRTUAL
$PARENT = MESH

30
$ID = MATERIALS
$NAME = Material Set
$DTYPE = SET
$CATEGORY = MATERIAL
$CHILD = MATERIALS
$CHILD = MATERIAL_ISOTROPIC
$CHILD = MATERIAL_ISOTROPIC_THERMAL
$CHILD = MATERIAL_ORTHOTROPIC
$CHILD = MATERIAL_ORTHOTROPIC_3D
$CHILD = MATERIAL_FIBER
$CHILD = MATERIAL_HONEYCOMB
$CHILD = MATERIAL_ANISOTROPIC
$CHILD = MATERIAL_ANISOTROPIC_2D
$CHILD = MATERIAL_ANISOTROPIC_THERMAL
$CHILD = MATERIAL_FLUID
$CHILD = MATERIAL_RTM_RESIN
$CHILD = MATERIAL_RTM_RANDOM
$CHILD = MATERIAL_RTM_RUNNER
$PARENT = MATERIALS
$PARENT = ANALYSIS_MODEL

31
$ID = PROPERTIES
$NAME = Property Set
$DTYPE = SET
$CATEGORY = PROPERTY
$CHILD = PROPERTIES
$CHILD = PROPERTY_BAR_3D
$CHILD = PROPERTY_BEAM_3D
$CHILD = PROPERTY_BEAM_3D_CURVED
$CHILD = PROPERTY_BEAM_3D_VARIABLE
$CHILD = PROPERTY_SHELL_3D
$CHILD = PROPERTY_SHELL_3D_COMPOSITE
$CHILD = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$CHILD = PROPERTY_MEMBRANE_3D
$CHILD = PROPERTY_SHEAR_PANEL_3D
$CHILD = PROPERTY_CONTACT_3D
$CHILD = PROPERTY_SPRING_3D
$CHILD = PROPERTY_SPRING_BEAM_3D
$CHILD = PROPERTY_DAMPER_3D
$CHILD = PROPERTY_DAMPER_3D_THERMAL
$CHILD = PROPERTY_SOLID_3D
$CHILD = PROPERTY_FLUID_3D
$CHILD = PROPERTY_ACOUSTIC_3D
$CHILD = PROPERTY_MASS_3D
$CHILD = PROPERTY_CONSTRAINT_3D_AXIAL
$CHILD = PROPERTY_CONSTRAINT_3D_CABLE
$CHILD = PROPERTY_CONSTRAINT_3D_CONTACT
$CHILD = PROPERTY_CONSTRAINT_3D_FITTING
$CHILD = PROPERTY_CONSTRAINT_3D_MEAN
$CHILD = PROPERTY_CONSTRAINT_3D_PERIODIC
$CHILD = PROPERTY_CONSTRAINT_3D_RIGID
$CHILD = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER
$CHILD = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER_FREQUENCY_DEPENDENT
$CHILD = PROPERTY_CONSTRAINT_3D_TIGHTENING
$CHILD = PROPERTY_CONSTRAINT_3D_SPLINE
$CHILD = PROPERTY_RTM_SHELL
$CHILD = PROPERTY_RTM_SOLID
$CHILD = PROPERTY_TFA_SHELL
$PARENT = PROPERTIES
$PARENT = ANALYSIS_MODEL

32
$ID = GROUPS
$NAME = Group Set
$DTYPE = SET
$CATEGORY = GROUP
$CHILD = SPECIFIED_GROUP
$CHILD = FILTRED_GROUP
$CHILD = IMPLICIT_GROUP
$CHILD = FREE_GROUP
$PARENT = ANALYSIS_MODEL

33
$ID = RESTRAINTS
$NAME = Restraint Set
$DTYPE = SET
$CATEGORY = RESTRAINT
$CHILD = RESTRAINTS
$CHILD = RESTRAINT_DISPLACEMENT
$CHILD = RESTRAINT_CONTACT
$CHILD = RESTRAINT_TEMPERATURE
$CHILD = RESTRAINT_INITIAL_DISPLACEMENT
$CHILD = RESTRAINT_INITIAL_VELOCITY
$CHILD = RESTRAINT_INITIAL_ACCELERATION
$CHILD = RESTRAINT_INITIAL_TEMPERATURE
$CHILD = COMBINED_RESTRAINT
$PARENT = RESTRAINTS
$PARENT = ANALYSIS_CASE

34
$ID = LOADS
$NAME = Load Set
$DTYPE = SET
$CATEGORY = LOAD
$CHILD = LOADS
$CHILD = LOAD_ENFORCED_DISPLACEMENT
$CHILD = LOAD_ENFORCED_VELOCITY
$CHILD = LOAD_ENFORCED_ACCELERATION
$CHILD = LOAD_POINT_FORCE
$CHILD = LOAD_POINT_MOMENT
$CHILD = LOAD_LINEIC_FORCE
$CHILD = LOAD_PRESSURE
$CHILD = LOAD_SURFACIC_FORCE
$CHILD = LOAD_VOLUMIC_FORCE
$CHILD = LOAD_TRANSLATIONAL_ACCELERATION
$CHILD = LOAD_ROTATION_FORCE
$CHILD = LOAD_CLEARANCE
$CHILD = LOAD_TRANSLATIONAL_VELOCITY
$CHILD = LOAD_TEMPERATURE_FIELD
$CHILD = LOAD_HEAT_FLUX
$CHILD = LOAD_CONVECTION
$CHILD = LOAD_HEAT_SOURCE
$CHILD = LOAD_THERMAL_GLUING
$CHILD = LOAD_RIGID_WALL
$CHILD = LOAD_CONTACT_INTERFACE
$CHILD = LOAD_RADIATION
$CHILD = COMBINED_LOAD
$PARENT = LOADS
$PARENT = ANALYSIS_CASE

35
$ID = MASSES
$NAME = Mass Set
$DTYPE = SET
$CATEGORY = MASS
$CHILD = MASSES
$CHILD = MASS_POINT_MASS
$CHILD = MASS_LINEIC_MASS
$CHILD = MASS_SURFACIC_MASS
$CHILD = MASS_VOLUMIC_MASS
$CHILD = COMBINED_MASS
$PARENT = MASSES
$PARENT = ANALYSIS_CASE

36
$ID = ANALYSIS_MODEL
$NAME = Finite Element Model
$DTYPE = SET
$CATEGORY = SET
$CHILD = MESH [!]
$CHILD = ANALYSIS_CASE
$CHILD = AXES
$CHILD = MATERIALS
$CHILD = PROPERTIES
$CHILD = GROUPS
$CHILD = ENVIRONMENT
$CHILD = FUNCTIONS
$CHILD = LOAD_FUNCTIONS
$CHILD = TRANSFER_FUNCTIONS
$CHILD = LOAD_VECTORS
$CHILD = TRANSFER_VECTORS
$CHILD = SINGULAR_VALUES
$CHILD = DATA_SOURCE
$CHILD = SENSITIVITIES
$CHILD = CROSSPOWERS
$CHILD = FRACS
$CHILD = RVACS
$CHILD = COMACS
$PARENT = ANALYSIS

37
$ID = ANALYSIS_CASE
$NAME = Analysis case
$DTYPE = SET
$CATEGORY = SET
$CHILD = BOUNDARY_CONDITIONS
$CHILD = RESTRAINTS
$CHILD = LOADS
$CHILD = MASSES
$CHILD = SENSORS
$CHILD = MECHANICAL_STATIC_LINEAR
$CHILD = MECHANICAL_STATIC_NON_LINEAR
$CHILD = MECHANICAL_BUCKLING_LINEAR
$CHILD = MECHANICAL_BUCKLING_NON_LINEAR
$CHILD = MECHANICAL_HARMONIC_LINEAR
$CHILD = MECHANICAL_HARMONIC_NON_LINEAR
$CHILD = MECHANICAL_TRANSIENT_LINEAR
$CHILD = MECHANICAL_TRANSIENT_NON_LINEAR
$CHILD = MECHANICAL_MODAL
$CHILD = MECHANICAL_CRASH_SOLUTION
$CHILD = THERMAL_STATIC_LINEAR
$CHILD = THERMAL_STATIC_NON_LINEAR
$CHILD = THERMAL_TRANSIENT_LINEAR
$CHILD = THERMAL_TRANSIENT_NON_LINEAR
$CHILD = AERODYNAMICS_STEADY_STATE
$CHILD = DURABILITY_SOLUTION
$CHILD = SHAPE_OPTIMIZATION
$CHILD = FUNCTIONS
$CHILD = LOAD_FUNCTIONS
$CHILD = TRANSFER_FUNCTIONS
$CHILD = LOAD_VECTORS
$CHILD = TRANSFER_VECTORS
$CHILD = RTM_SOL_SET
$CHILD = RTM_BC_SET
$CHILD = POSTPROCESSINGS
$CHILD = STAMPING_SOLUTION_SET
$CHILD = FLUID_SOLUTION
$CHILD = FRACS
$CHILD = RVACS
$CHILD = COMACS
$CHILD = CROSSPOWERS
$CHILD = SPRAY_SOL_SET
$CHILD = DEPOSITION_SOL_SET
$CHILD = PAINT_SOL_SET
$PARENT = ANALYSIS_MODEL

38
$ID = MECHANICAL_STATIC_LINEAR
$NAME = Mechanical static linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = CLEARANCE
$CHILD = POINT_FORCE
$CHILD = POINT_MOMENT
$CHILD = POINT_MASS
$CHILD = MASS_INERTIA
$CHILD = MASS_MOMENT_OF_INERTIA
$CHILD = PRESSURE
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = ELASTIC_ENERGY
$CHILD = ELASTIC_ENERGY_DENSITY
$CHILD = CURVATURE
$CHILD = TRANSVERSE_SHEAR_STRAIN
$CHILD = TRANSVERSE_SHEAR_STRESS
$CHILD = ESTIMATED_ERROR
$CHILD = FRICTION_RATIO
$CHILD = REFINMENT_RATIO
$CHILD = MODAL_MASS
$CHILD = MODAL_STIFFNESS
$CHILD = MODAL_DISPLACEMENT
$CHILD = MODAL_VELOCITY
$CHILD = MODAL_ACCELERATION
$CHILD = MODAL_DISPLACEMENT_SQUARED
$CHILD = DATA_CASE
$CHILD = FORCE_FLOW
$CHILD = MOMENT_FLOW
$CHILD = FAILURE_CRITERION
$CHILD = MODAL_SCALE_FACTOR
$CHILD = STRAIN_RATE
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = TRANSLATION_NORM
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$CHILD = TRESCA_CRITERION
$PARENT = ANALYSIS_CASE

39
$ID = MECHANICAL_STATIC_NON_LINEAR
$NAME = Mechanical static non-linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = CLEARANCE
$CHILD = POINT_FORCE
$CHILD = POINT_MOMENT
$CHILD = MASS_INERTIA
$CHILD = MASS_MOMENT_OF_INERTIA
$CHILD = PRESSURE
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = ELASTIC_ENERGY
$CHILD = ELASTIC_ENERGY_DENSITY
$CHILD = CURVATURE
$CHILD = TRANSVERSE_SHEAR_STRAIN
$CHILD = TRANSVERSE_SHEAR_STRESS
$CHILD = ESTIMATED_ERROR
$CHILD = FRICTION_RATIO
$CHILD = REFINMENT_RATIO
$CHILD = EQUIVALENT_PLASTIC_STRAIN
$CHILD = HEAT_FLUX_VECTOR
$CHILD = REACTION_FLUX
$CHILD = CONTACT_OPENING
$CHILD = CONTACT_SHEAR_TRACTION
$CHILD = CONTACT_TANGENTIAL_DISPLACEMENT
$CHILD = FAILURE_CRITERION
$CHILD = STRAIN_RATE
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = TRANSLATION_NORM
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

40
$ID = MECHANICAL_BUCKLING_LINEAR
$NAME = Mechanical buckling linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = BUCKLING_FACTOR
$CHILD = FAILURE_CRITERION
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

41
$ID = MECHANICAL_BUCKLING_NON_LINEAR
$NAME = Mechanical buckling non-linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = BUCKLING_FACTOR
$CHILD = HEAT_FLUX_VECTOR
$CHILD = REACTION_FLUX
$CHILD = CONTACT_OPENING
$CHILD = CONTACT_SHEAR_TRACTION
$CHILD = CONTACT_TANGENTIAL_DISPLACEMENT
$CHILD = FAILURE_CRITERION
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

42
$ID = MECHANICAL_MODAL
$NAME = Mechanical modal solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = POINT_MASS
$CHILD = MASS_INERTIA
$CHILD = MASS_MOMENT_OF_INERTIA
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = ELASTIC_ENERGY
$CHILD = ELASTIC_ENERGY_DENSITY
$CHILD = FREQUENCY
$CHILD = CURVATURE
$CHILD = TRANSVERSE_SHEAR_STRAIN
$CHILD = TRANSVERSE_SHEAR_STRESS
$CHILD = DATA_CASE
$CHILD = LOCAL_GLOBAL_INDICATOR
$CHILD = MODAL_MASS
$CHILD = MODAL_STIFFNESS
$CHILD = MODAL_DISPLACEMENT
$CHILD = MODAL_VELOCITY
$CHILD = MODAL_ACCELERATION
$CHILD = MODAL_DISPLACEMENT_SQUARED
$CHILD = TOTAL_ENERGY
$CHILD = MEAN_QUADRATIC_VELOCITY
$CHILD = PRESSURE_SQUARED
$CHILD = VOLUME_VELOCITY_SQUARED
$CHILD = VOLUME_ACCELERATION_SQUARED
$CHILD = RIGID_BODY_INDICATOR
$CHILD = MODE_ID
$CHILD = POTENTIAL_FLOW
$CHILD = PRESSURE_TIME_DERIVATIVE
$CHILD = FLOW_VELOCITY
$CHILD = STATIC_FLOW_RESISTIVITY
$CHILD = DYNAMIC_FLOW_RESISTIVITY
$CHILD = ACOUSTIC_INTENSITY
$CHILD = MODAL_SCALE_FACTOR
$CHILD = STRAIN_RATE
$CHILD = INV_PRESSURE_SQUARED
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = TRANSLATION_NORM
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$CHILD = MEAN_QUADRATIC_PRESSURE
$PARENT = ANALYSIS_CASE

43
$ID = THERMAL_STATIC_LINEAR
$NAME = Thermal static linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TEMPERATURE
$CHILD = HEAT_FLUX
$CHILD = FAILURE_CRITERION
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

44
$ID = THERMAL_STATIC_NON_LINEAR
$NAME = Thermal static non-linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TEMPERATURE
$CHILD = HEAT_FLUX
$CHILD = FAILURE_CRITERION
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

45
$ID = AERODYNAMICS_STEADY_STATE
$NAME = Steady state aerodynamics solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATIONAL_VELOCITY
$CHILD = FAILURE_CRITERION
$PARENT = ANALYSIS_CASE

46
$ID = TRANSFER_FUNCTIONS
$NAME = Transfer functions set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSFER_FUNCTION
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE

47
$ID = LOAD_FUNCTIONS
$NAME = Load functions set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = LOAD_FUNCTION
$CHILD = PRESSURE_CONTRIBUTION
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE

48
$ID = TRANSFER_VECTORS
$NAME = Transfer vectors set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSFER_VECTOR
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE

49
$ID = LOAD_VECTORS
$NAME = Load vectors set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = LOAD_VECTOR
$CHILD = DATA_CASE
$CHILD = RPM
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE

50
$ID = DATA_SOURCE
$NAME = Data source set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = DATA_SOURCE
$CHILD = DATA_CASE
$CHILD = TRANSFER_FUNCTION
$CHILD = LOAD_FUNCTION
$CHILD = MODAL_MASS
$CHILD = MODAL_STIFFNESS
$CHILD = TOTAL_ENERGY
$CHILD = MEAN_QUADRATIC_VELOCITY
$CHILD = PRESSURE_SQUARED
$CHILD = VOLUME_VELOCITY_SQUARED
$CHILD = VOLUME_ACCELERATION_SQUARED
$CHILD = RIGID_BODY_INDICATOR
$CHILD = MODE_ID
$CHILD = POTENTIAL_FLOW
$CHILD = PRESSURE_TIME_DERIVATIVE
$CHILD = FLOW_VELOCITY
$CHILD = STATIC_FLOW_RESISTIVITY
$CHILD = DYNAMIC_FLOW_RESISTIVITY
$CHILD = PSD
$CHILD = PSD_PRESSURE
$CHILD = PSD_DISPLACEMENT
$CHILD = PSD_VELOCITY
$CHILD = PSD_ACCELERATION
$CHILD = PSD_TRANSLATION
$CHILD = PSD_TRANSLATIONAL_VELOCITY
$CHILD = PSD_TRANSLATIONAL_ACCELERATION
$CHILD = PSD_ROTATION
$CHILD = PSD_ROTATIONAL_VELOCITY
$CHILD = PSD_ROTATIONAL_ACCELERATION
$CHILD = PSD_STRESS
$CHILD = PSD_STRAIN
$CHILD = PSD_FORCE
$CHILD = PSD_MOMENT
$CHILD = PSD_VOLUME_VELOCITY
$CHILD = PSD_VOLUME_ACCELERATION
$CHILD = PSD_DISPLACEMENT_BY_VELOCITY
$CHILD = PSD_DISPLACEMENT_BY_ACCELERATION
$CHILD = PSD_VELOCITY_BY_ACCELERATION
$CHILD = PSD_DISPLACEMENT_BY_FORCE
$CHILD = PSD_DISPLACEMENT_BY_VOLUME_VELOCITY
$CHILD = PSD_DISPLACEMENT_BY_VOLUME_ACCELERATION
$CHILD = PSD_DISPLACEMENT_BY_PRESSURE
$CHILD = PSD_VELOCITY_BY_FORCE
$CHILD = PSD_VELOCITY_BY_VOLUME_VELOCITY
$CHILD = PSD_VELOCITY_BY_VOLUME_ACCELERATION
$CHILD = PSD_VELOCITY_BY_PRESSURE
$CHILD = PSD_ACCELERATION_BY_FORCE
$CHILD = PSD_ACCELERATION_BY_VOLUME_VELOCITY
$CHILD = PSD_ACCELERATION_BY_VOLUME_ACCELERATION
$CHILD = PSD_ACCELERATION_BY_PRESSURE
$CHILD = PSD_PRESSURE_BY_FORCE
$CHILD = PSD_PRESSURE_BY_VOLUME_VELOCITY
$CHILD = PSD_PRESSURE_BY_VOLUME_ACCELERATION
$CHILD = PSD_VELOCITY_BY_DISPLACEMENT
$CHILD = PSD_ACCELERATION_BY_DISPLACEMENT
$CHILD = PSD_ACCELERATION_BY_VELOCITY
$CHILD = PSD_FORCE_BY_DISPLACEMENT
$CHILD = PSD_VOLUME_VELOCITY_BY_DISPLACEMENT
$CHILD = PSD_VOLUME_ACCELERATION_BY_DISPLACEMENT
$CHILD = PSD_PRESSURE_BY_DISPLACEMENT
$CHILD = PSD_FORCE_BY_VELOCITY
$CHILD = PSD_VOLUME_VELOCITY_BY_VELOCITY
$CHILD = PSD_VOLUME_ACCELERATION_BY_VELOCITY
$CHILD = PSD_PRESSURE_BY_VELOCITY
$CHILD = PSD_FORCE_BY_ACCELERATION
$CHILD = PSD_VOLUME_VELOCITY_BY_ACCELERATION
$CHILD = PSD_VOLUME_ACCELERATION_BY_ACCELERATION
$CHILD = PSD_PRESSURE_BY_ACCELERATION
$CHILD = PSD_FORCE_BY_PRESSURE
$CHILD = PSD_VOLUME_VELOCITY_BY_PRESSURE
$CHILD = PSD_VOLUME_ACCELERATION_BY_PRESSURE
$CHILD = PRESSURE_CONTRIBUTION
$CHILD = PRESSURE_CONTRIBUTION_OVER_AREA
$CHILD = CROSSPOWER
$CHILD = FRAC
$CHILD = SENSITIVITY
$CHILD = ACOUSTIC_INTENSITY
$CHILD = ACOUSTIC_ENERGY_DENSITY
$CHILD = MODAL_SCALE_FACTOR
$CHILD = INV_PRESSURE_SQUARED
$CHILD = RVAC
$CHILD = RPM
$CHILD = MEAN_QUADRATIC_PRESSURE
$PARENT = ANALYSIS_MODEL
$PARENT = DATA_SOURCE

51
$ID = ENVIRONMENT
$NAME = Environment set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TEMPERATURE
$PARENT = ANALYSIS_MODEL

52
$ID = SINGULAR_VALUES
$NAME = Singular values set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = SINGULAR_VALUE
$PARENT = ANALYSIS_MODEL

53
$ID = MECHANICAL_HARMONIC_LINEAR
$NAME = Mechanical harmonic linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = FUNCTIONS
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = FREQUENCY
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = ELASTIC_ENERGY
$CHILD = ELASTIC_ENERGY_DENSITY
$CHILD = CURVATURE
$CHILD = TRANSVERSE_SHEAR_STRAIN
$CHILD = TRANSVERSE_SHEAR_STRESS
$CHILD = KINETIC_ENERGY
$CHILD = KINETIC_ENERGY_DENSITY
$CHILD = TRANSLATIONAL_VELOCITY
$CHILD = TRANSLATIONAL_ACCELERATION
$CHILD = ROTATIONAL_VELOCITY
$CHILD = ROTATIONAL_ACCELERATION
$CHILD = FORCE_FLOW
$CHILD = MOMENT_FLOW
$CHILD = FAILURE_CRITERION
$CHILD = STRAIN_RATE
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

54
$ID = MECHANICAL_HARMONIC_NON_LINEAR
$NAME = Mechanical harmonic non-linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = FUNCTIONS
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = FREQUENCY
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = ELASTIC_ENERGY
$CHILD = ELASTIC_ENERGY_DENSITY
$CHILD = CURVATURE
$CHILD = TRANSVERSE_SHEAR_STRAIN
$CHILD = TRANSVERSE_SHEAR_STRESS
$CHILD = KINETIC_ENERGY
$CHILD = KINETIC_ENERGY_DENSITY
$CHILD = HEAT_FLUX_VECTOR
$CHILD = REACTION_FLUX
$CHILD = CONTACT_OPENING
$CHILD = CONTACT_SHEAR_TRACTION
$CHILD = CONTACT_TANGENTIAL_DISPLACEMENT
$CHILD = FAILURE_CRITERION
$CHILD = STRAIN_RATE
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

55
$ID = MECHANICAL_TRANSIENT_LINEAR
$NAME = Mechanical transient linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TIME
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = CLEARANCE
$CHILD = STRESS
$CHILD = STRAIN
$CHILD = STRESS_VON_MISES
$CHILD = CURVATURE
$CHILD = TRANSVERSE_SHEAR_STRAIN
$CHILD = TRANSVERSE_SHEAR_STRESS
$CHILD = KINETIC_ENERGY
$CHILD = KINETIC_ENERGY_DENSITY
$CHILD = TRANSLATIONAL_VELOCITY
$CHILD = TRANSLATIONAL_ACCELERATION
$CHILD = ROTATIONAL_VELOCITY
$CHILD = ROTATIONAL_ACCELERATION
$CHILD = FORCE_FLOW
$CHILD = MOMENT_FLOW
$CHILD = FAILURE_CRITERION
$CHILD = STRAIN_RATE
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

56
$ID = MECHANICAL_TRANSIENT_NON_LINEAR
$NAME = Mechanical transient non-linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TIME
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = CLEARANCE
$CHILD = POINT_FORCE
$CHILD = POINT_MOMENT
$CHILD = MASS_INERTIA
$CHILD = MASS_MOMENT_OF_INERTIA
$CHILD = PRESSURE
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = ELASTIC_ENERGY
$CHILD = ELASTIC_ENERGY_DENSITY
$CHILD = CURVATURE
$CHILD = TRANSVERSE_SHEAR_STRAIN
$CHILD = TRANSVERSE_SHEAR_STRESS
$CHILD = ESTIMATED_ERROR
$CHILD = FRICTION_RATIO
$CHILD = REFINMENT_RATIO
$CHILD = EQUIVALENT_PLASTIC_STRAIN
$CHILD = KINETIC_ENERGY
$CHILD = KINETIC_ENERGY_DENSITY
$CHILD = FRICTION_FORCE
$CHILD = HEAT_FLUX_VECTOR
$CHILD = REACTION_FLUX
$CHILD = CONTACT_OPENING
$CHILD = CONTACT_SHEAR_TRACTION
$CHILD = CONTACT_TANGENTIAL_DISPLACEMENT
$CHILD = FAILURE_CRITERION
$CHILD = STRAIN_RATE
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

57
$ID = FUNCTIONS
$NAME = Functions set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = FUNCTION
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR

58
$ID = SENSORS
$NAME = Sensors set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = SENSOR
$PARENT = ANALYSIS_CASE

59
$ID = DURABILITY_SOLUTION
$NAME = Durability solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = SAFETY_FACTOR
$CHILD = DESIGN_LOAD_FACTOR
$CHILD = FATIGUE_DAMAGE
$CHILD = FATIGUE_LIFE
$CHILD = FATIGUE_RECIPROCAL_LIFE
$CHILD = FATIGUE_NORMALIZED_DAMAGE
$CHILD = FATIGUE_PROJECTOR_NORM
$CHILD = MAXIMUM_ABSOLUTE_STRESS
$CHILD = MAXIMUM_STRESS_AMPLITUDE
$CHILD = ELIMINATION_RUN_NUMBER
$CHILD = FATIGUE_TASK_NUMBER
$CHILD = FATIGUE_HOT_SPOT_NUMBER
$CHILD = BIAXIALITY_FACTOR
$CHILD = PHASE_ANGLE
$CHILD = PHASE_ANGLE_SPREAD
$CHILD = FAILURE_ANGLE
$CHILD = LOAD_CONDITION_RATIO
$CHILD = FATIGUE_LIFE_TIME
$CHILD = FATIGUE_LIFE_MILEAGE
$CHILD = SPOT_WELD_DIAMETER
$CHILD = SPOT_WELD_ANGLE
$CHILD = SPOT_WELD_RATIO
$CHILD = DAMAGE_LOCATION
$CHILD = STRESS_REDUCTION_FACTOR
$PARENT = ANALYSIS_CASE

60
$ID = BOUNDARY_CONDITIONS
$NAME = Boundary condition set
$DTYPE = SET
$CATEGORY = BOUNDARY_CONDITION
$CHILD = BOUNDARY_CONDITION_INLET
$CHILD = BOUNDARY_CONDITION_OUTLET
$CHILD = BOUNDARY_CONDITION_WALL
$CHILD = BOUNDARY_CONDITION_MOVING_BELT
$CHILD = BOUNDARY_CONDITION_LIQUID_SURFACE
$PARENT = ANALYSIS_CASE

61
$ID = THERMAL_TRANSIENT_LINEAR
$NAME = Thermal transient linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TEMPERATURE
$CHILD = HEAT_FLUX
$CHILD = FAILURE_CRITERION
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

62
$ID = THERMAL_TRANSIENT_NON_LINEAR
$NAME = Thermal transient non-linear solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TEMPERATURE
$CHILD = HEAT_FLUX
$CHILD = FAILURE_CRITERION
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE

63
$ID = SHAPE_OPTIMIZATION
$NAME = Shape Optimization
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATION
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = SHAPE_OPTIMIZATION_CONTROL
$CHILD = TOPOLOGY_OPTIMIZATION_CONTROL
$CHILD = TOPOLOGY_OPTIMIZATION_DENSITY
$PARENT = ANALYSIS_CASE

64
$ID = SENSITIVITIES
$NAME = Sensitivities set
$DTYPE = SET
$CATEGORY = IEXPRESSION
$CHILD = SENSITIVITY
$PARENT = ANALYSIS_MODEL

65
$ID = CROSSPOWERS
$NAME = Crosspowers set
$DTYPE = SET
$CATEGORY = IEXPRESSION
$CHILD = CROSSPOWER
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE

66
$ID = FRACS
$NAME = Frequency response assurance criteria set
$DTYPE = SET
$CATEGORY = IEXPRESSION
$CHILD = FRAC
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE

67
$ID = MECHANICAL_CRASH_SOLUTION
$NAME = Mechanical crash solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATION
$CHILD = ROTATION
$CHILD = CLEARANCE
$CHILD = POINT_FORCE
$CHILD = POINT_MOMENT
$CHILD = POINT_MASS
$CHILD = MASS_INERTIA
$CHILD = MASS_MOMENT_OF_INERTIA
$CHILD = PRESSURE
$CHILD = STRESS
$CHILD = STRESS_VON_MISES
$CHILD = STRAIN
$CHILD = STRAIN_VON_MISES
$CHILD = ELASTIC_ENERGY
$CHILD = ELASTIC_ENERGY_DENSITY
$CHILD = FORCE_FLOW
$CHILD = MOMENT_FLOW
$CHILD = FAILURE_CRITERION
$CHILD = STRAIN_RATE
$CHILD = SURFACIC_FORCE
$CHILD = PHASE_ANGLE
$CHILD = DEFINITION_POINT
$CHILD = AREA
$CHILD = INFORMATION_RESULT
$CHILD = VALUE_RESULT
$CHILD = SOLUTION_DEPENDENT_VARIABLE
$PARENT = ANALYSIS_CASE


68
$ID = RTM_SOL_SET
$NAME = RTM simulation solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = FILLING_TIME
$CHILD = FILLING_FACTOR
$CHILD = PRESSURE
$CHILD = TRANSLATIONAL_VELOCITY
$CHILD = THICKNESS
$CHILD = FIBER_CONTENT
$CHILD = PERMEABILITY_MATRIX
$CHILD = TEMPERATURE
$CHILD = EXTENT_OF_CURE
$CHILD = EXOTHERMY
$CHILD = VISCOSITY
$PARENT = ANALYSIS_CASE

69
$ID = RTM_BC_SET
$NAME = RTM boundary conditions set
$DTYPE = SET
$CATEGORY = LOAD
$CHILD = RTM_INLET_PRESSURE
$CHILD = RTM_INLET_FLOW_RATE
$CHILD = RTM_OUTLET
$PARENT = ANALYSIS_CASE

70
$ID = POSTPROCESSINGS
$NAME = Post-Processings set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = POSTPROCESSING
$PARENT = ANALYSIS_CASE

71
$ID = STAMPING_SOLUTION_SET
$NAME = Stamping solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = FLD_QUALITY_ZONE_ID
$CHILD = FLD_DISTANCE
$CHILD = THICKNESS
$CHILD = STRESS
$CHILD = STRAIN
$PARENT = ANALYSIS_CASE

72
$ID = FLUID_SOLUTION
$NAME = Fluid solution set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = TRANSLATIONAL_VELOCITY
$CHILD = PRESSURE
$CHILD = DYNAMIC_PRESSURE
$CHILD = TOTAL_PRESSURE
$CHILD = TEMPERATURE
$CHILD = TOTAL_TEMPERATURE
$CHILD = TURBULENCE_KINETIC_ENERGY
$CHILD = TURBULENT_DISSIPATION_RATE
$CHILD = DENSITY
$CHILD = MACH_NUMBER
$CHILD = FLUID_VISCOSITY
$PARENT = ANALYSIS_CASE

73
$ID = RVACS
$NAME = Response vector assurance criteria set
$DTYPE = SET
$CATEGORY = IEXPRESSION
$CHILD = RVAC
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE

74
$ID = COMACS
$NAME = Coordinate modal assurance criteria set
$DTYPE = SET
$CATEGORY = NONE
$CHILD = COMAC
$PARENT = ANALYSIS_MODEL
$PARENT = ANALYSIS_CASE


75
$ID = AXIS_RECTANGULAR_3D_NODE
$NAME = 3D rectangular axis system nodes
$DTYPE = ENTITY
$CATEGORY = AXIS
$CHILD = ORIGIN_NODE [!]
$CHILD = LOCAL_Z_NODE [!]
$CHILD = LOCAL_XZ_NODE [!]
$PARENT = AXES


76
$ID = AXIS_RECTANGULAR_3D_COORDINATE
$NAME = 3D rectangular axis system coordinates
$DTYPE = ENTITY
$CATEGORY = AXIS
$CHILD = ORIGIN_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_Z_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_XZ_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS
$PARENT = AXES


77
$ID = AXIS_CYLINDRICAL_3D_NODE
$NAME = 3D rectangular axis system nodes
$DTYPE = ENTITY
$CATEGORY = AXIS
$CHILD = ORIGIN_NODE [!]
$CHILD = LOCAL_Z_NODE [!]
$CHILD = LOCAL_XZ_NODE [!]
$CHILD = REVERSE
$PARENT = AXES


78
$ID = AXIS_CYLINDRICAL_3D_COORDINATE
$NAME = 3D cylindrical axis system coordinates
$DTYPE = ENTITY
$CATEGORY = AXIS
$CHILD = ORIGIN_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_Z_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_XZ_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = REVERSE {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = AXES


79
$ID = AXIS_SPHERICAL_3D_NODE
$NAME = 3D rectangular axis system nodes
$DTYPE = ENTITY
$CATEGORY = AXIS
$CHILD = ORIGIN_NODE [!]
$CHILD = LOCAL_Z_NODE [!]
$CHILD = LOCAL_XZ_NODE [!]
$CHILD = REVERSE
$PARENT = AXES


80
$ID = AXIS_SPHERICAL_3D_COORDINATE
$NAME = 3D cylindrical axis system coordinates
$DTYPE = ENTITY
$CATEGORY = AXIS
$CHILD = ORIGIN_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_Z_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_XZ_COORDINATE {$REF=LOCAL_AXIS} [!]
$CHILD = REVERSE {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = AXES


81
$ID = GLOBAL_AXIS
$NAME = 3D global axis system
$DTYPE = ENTITY
$CATEGORY = AXIS
$CHILD = ORIGIN_COORDINATE [!]
$CHILD = LOCAL_Z_COORDINATE [!]
$CHILD = LOCAL_XZ_COORDINATE [!]
$PARENT = AXES

82
$ID = NODE
$NAME = Node
$DTYPE = ENTITY
$CATEGORY = NODE
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = RESULT_AXIS_SYSTEM
$PARENT = NODES
$PARENT = ELEMENT_SPRING_3D_VIRTUAL
$PARENT = ELEMENT_DAMPER_3D_VIRTUAL
$PARENT = ELEMENT_DAMPER_3D_THERMAL_VIRTUAL
$PARENT = ELEMENT_MASS_3D_VIRTUAL
$PARENT = ELEMENT_CONSTRAINT_3D_MEAN_VIRTUAL
$APPLYBY = LOAD_ENFORCED_DISPLACEMENT
$APPLYBY = LOAD_ENFORCED_VELOCITY
$APPLYBY = LOAD_POINT_FORCE
$APPLYBY = LOAD_POINT_MOMENT
$APPLYBY = LOAD_HEAT_SOURCE
$APPLYBY = LOAD_TRANSLATIONAL_VELOCITY
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RIGID_WALL
$APPLYBY = LOAD_CONTACT_INTERFACE
$APPLYBY = MASS_POINT_MASS
$APPLYBY = LOAD_FUNCTION
$APPLYBY = TRANSFER_FUNCTION
$APPLYBY = RESTRAINT_DISPLACEMENT
$APPLYBY = RESTRAINT_TEMPERATURE
$APPLYBY = RESTRAINT_CONTACT
$APPLYBY = RESTRAINT_INITIAL_DISPLACEMENT
$APPLYBY = RESTRAINT_INITIAL_VELOCITY
$APPLYBY = RESTRAINT_INITIAL_ACCELERATION
$APPLYBY = RESTRAINT_INITIAL_TEMPERATURE

83
$ID = NODE_PROXY
$NAME = Node Proxy
$DTYPE = ENTITY
$CATEGORY = NODE
$PARENT = NODES

84
$ID = LOAD_ENFORCED_DISPLACEMENT
$NAME = 3D enforced displacement
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = ASSOCIATED_RESTRAINT {$REF=LOCAL_AXIS} [!%]
$CHILD = TRANSLATION {$REF=LOCAL_AXIS} [!]
$CHILD = ROTATION {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = LOADS

85
$ID = LOAD_ENFORCED_VELOCITY
$NAME = 3D enforced velocity
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = TRANSLATIONAL_VELOCITY {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = LOADS

86
$ID = LOAD_ENFORCED_ACCELERATION
$NAME = 3D enforced acceleration
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = TRANSLATIONAL_ACCELERATION {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$PARENT = LOADS

87
$ID = LOAD_POINT_FORCE
$NAME = 3D point force
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = POINT_FORCE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = LOADS

88
$ID = LOAD_POINT_MOMENT
$NAME = 3D point moment
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = POINT_MOMENT {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = LOADS

89
$ID = LOAD_HEAT_SOURCE
$NAME = Heat source load
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = HEAT_FLUX [!]
$APPLYTO = NODE {$POS=NODE}
$PARENT = LOADS

90
$ID = LOAD_LINEIC_FORCE
$NAME = 3D lineic force
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = LINEIC_FORCE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=EDGE}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=EDGE}
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=EDGE}
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=EDGE}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=EDGE}
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=EDGE}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=EDGE}
$PARENT = LOADS

91
$ID = LOAD_PRESSURE
$NAME = 3D pressure
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = PRESSURE [!]
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA6 {$POS=EDGE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD8 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = LOADS

92
$ID = LOAD_SURFACIC_FORCE
$NAME = 3D surfacic force
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = SURFACIC_FORCE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA6 {$POS=EDGE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD8 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = LOADS

93
$ID = LOAD_VOLUMIC_FORCE
$NAME = 3D volumic force
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = VOLUMIC_FORCE {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$PARENT = LOADS

94
$ID = LOAD_TRANSLATIONAL_VELOCITY
$NAME = Translational velocity
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = TRANSLATIONAL_VELOCITY {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = LOADS

95
$ID = LOAD_TRANSLATIONAL_ACCELERATION
$NAME = 3D translational acceleration
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = TRANSLATIONAL_ACCELERATION {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$PARENT = LOADS

96
$ID = LOAD_ROTATION_FORCE
$NAME = 3D forces due to rotation
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = LOCAL_AXIS [!%]
$CHILD = ANGULAR_VELOCITY {$REF=LOCAL_AXIS}
$CHILD = ANGULAR_ACCELERATION {$REF=LOCAL_AXIS}
$APPLYTO = NODE {$POS=NODE}
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$PARENT = LOADS

97
$ID = LOAD_CLEARANCE
$NAME = Clearance load
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = CLEARANCE [!%]
$APPLYTO = ELEMENT_CONTACT_3D_NODAL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_AXIAL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SHELL_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID {$POS=ELEMENT}
$PARENT = LOADS

98
$ID = LOAD_TEMPERATURE_FIELD
$NAME = Temperature field
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = TEMPERATURE
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$PARENT = LOADS

99
$ID = LOAD_HEAT_FLUX
$NAME = Heat flux load
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = HEAT_FLUX [!]
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = LOADS

100
$ID = LOAD_CONVECTION
$NAME = Convection load
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = CONVECTION [!%]
$CHILD = TEMPERATURE [!]
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = LOADS

101
$ID = LOAD_THERMAL_GLUING
$NAME = Thermal gluing
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = THERMAL_GLUING_TYPE [!%]
$CHILD = GLUING_LOAD [!]
$APPLYTO = NODE {$POS=NODE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = LOADS

102
$ID = LOAD_RIGID_WALL
$NAME = Rigid wall
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = DEFINITION_POINT {$DIM=2, 3} [!%]
$CHILD = WALL_TYPE [%]
$CHILD = FRICTION_RATIO [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = LOADS

103
$ID = LOAD_CONTACT_INTERFACE
$NAME = Contact interface
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = FRICTION_RATIO [!%]
$CHILD = TRANSLATIONAL_STIFFNESS [%]
$CHILD = CLEARANCE [%]
$APPLYTO = NODE {$POS=NODE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=NODE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=NODE}
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=NODE}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=NODE}
$PARENT = LOADS

104
$ID = RTM_INLET_PRESSURE
$NAME = Inlet pressure
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = PRESSURE
$PARENT = RTM_BC_SET

105
$ID = RTM_INLET_FLOW_RATE
$NAME = Inlet flow rate
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = FLOW_RATE
$PARENT = RTM_BC_SET

106
$ID = RTM_OUTLET
$NAME = Outlet
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = PRESSURE
$PARENT = RTM_BC_SET

107
$ID = LOAD_RADIATION
$NAME = Radiation load
$DTYPE = ENTITY
$CATEGORY = LOAD
$CHILD = TEMPERATURE [!]
$CHILD = EMISSIVITY [!%]
$CHILD = ABSORPTIVITY [!%]
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = LOADS

108
$ID = MASS_POINT_MASS
$NAME = 3D point mass
$DTYPE = ENTITY
$CATEGORY = MASS
$CHILD = POINT_MASS
$CHILD = LOCAL_AXIS [%]
$CHILD = MASS_INERTIA {$REF=LOCAL_AXIS}
$CHILD = MASS_MOMENT_OF_INERTIA {$REF=LOCAL_AXIS}
$CHILD = MASS_MOMENT_OVER_ACCELERATION {$REF=LOCAL_AXIS}
$CHILD = OFFSET {$REF=OFFSET_AXIS} [%]
$CHILD = OFFSET_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = MASSES

109
$ID = MASS_LINEIC_MASS
$NAME = 3D lineic mass
$DTYPE = ENTITY
$CATEGORY = MASS
$CHILD = LINEIC_MASS [!]
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=EDGE}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=EDGE}
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=EDGE}
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=EDGE}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=EDGE}
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=EDGE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=EDGE}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=EDGE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=EDGE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=EDGE}
$PARENT = MASSES

110
$ID = MASS_SURFACIC_MASS
$NAME = 3D surfacic mass
$DTYPE = ENTITY
$CATEGORY = MASS
$CHILD = SURFACIC_MASS [!]
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=FACE}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = MASSES

111
$ID = MASS_VOLUMIC_MASS
$NAME = 3D volumic mass
$DTYPE = ENTITY
$CATEGORY = MASS
$CHILD = VOLUMIC_MASS [!]
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$PARENT = MASSES

112
$ID = NODE_GROUP
$NAME = Node group
$DTYPE = ENTITY
$CATEGORY = GROUP
$PARENT = SPECIFIED_GROUP
$PARENT = FILTRED_GROUP
$PARENT = IMPLICIT_GROUP
$PARENT = FREE_GROUP

113
$ID = EDGE_GROUP
$NAME = Edge group
$DTYPE = ENTITY
$CATEGORY = GROUP
$PARENT = SPECIFIED_GROUP
$PARENT = FILTRED_GROUP
$PARENT = IMPLICIT_GROUP
$PARENT = FREE_GROUP

114
$ID = FACE_GROUP
$NAME = Face group
$DTYPE = ENTITY
$CATEGORY = GROUP
$PARENT = SPECIFIED_GROUP
$PARENT = FILTRED_GROUP
$PARENT = IMPLICIT_GROUP
$PARENT = FREE_GROUP

115
$ID = ELEMENT_GROUP
$NAME = Element group
$DTYPE = ENTITY
$CATEGORY = GROUP
$PARENT = SPECIFIED_GROUP
$PARENT = FILTRED_GROUP
$PARENT = IMPLICIT_GROUP
$PARENT = FREE_GROUP

116
$ID = SPECIFIED_GROUP
$NAME = Specified group
$DTYPE = ENTITY
$CATEGORY = GROUP
$CHILD = NODE_GROUP
$CHILD = EDGE_GROUP
$CHILD = FACE_GROUP
$CHILD = ELEMENT_GROUP
$PARENT = MESH
$PARENT = GROUPS

117
$ID = FILTRED_GROUP
$NAME = Filtered group
$DTYPE = ENTITY
$CATEGORY = GROUP
$CHILD = NODE_GROUP
$CHILD = EDGE_GROUP
$CHILD = FACE_GROUP
$CHILD = ELEMENT_GROUP
$PARENT = MESH
$PARENT = GROUPS

118
$ID = IMPLICIT_GROUP
$NAME = Implicit group
$DTYPE = ENTITY
$CATEGORY = GROUP
$CHILD = NODE_GROUP
$CHILD = EDGE_GROUP
$CHILD = FACE_GROUP
$CHILD = ELEMENT_GROUP
$PARENT = MESH
$PARENT = GROUPS

119
$ID = FREE_GROUP
$NAME = Free group
$DTYPE = ENTITY
$CATEGORY = GROUP
$CHILD = NODE_GROUP
$CHILD = EDGE_GROUP
$CHILD = FACE_GROUP
$CHILD = ELEMENT_GROUP
$PARENT = MESH
$PARENT = GROUPS

120
$ID = LOAD_FUNCTION
$NAME = Load function
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$CHILD = MODAL_DISPLACEMENT
$CHILD = DATA_CASE
$CHILD = MODE_ID
$CHILD = RPM
$CHILD = ORDER_NUMBER
$CHILD = REFERENCE_ID
$CHILD = LOCAL_AXIS
$APPLYTO = NODE {$POS=DOF}
$APPLYTO = VIRTUAL_NODE {$POS=DOF}
$PARENT = LOAD_FUNCTIONS
$PARENT = DATA_SOURCE

121
$ID = TRANSFER_FUNCTION
$NAME = Transfer function
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$CHILD = LOCAL_AXIS
$APPLYTO = NODE {$POS=DOF}
$APPLYTO = VIRTUAL_NODE {$POS=DOF}
$PARENT = TRANSFER_FUNCTIONS
$PARENT = DATA_SOURCE

122
$ID = TRANSFER_VECTOR
$NAME = Transfer vector
$DTYPE = ENTITY
$CATEGORY = NONE
$PARENT = TRANSFER_VECTORS

123
$ID = LOAD_VECTOR
$NAME = Load vector
$DTYPE = ENTITY
$CATEGORY = NONE
$CHILD = DATA_CASE
$PARENT = LOAD_VECTORS

124
$ID = SINGULAR_VALUE
$NAME = Singular value
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$CHILD = SV_SINGULAR_VALUE
$CHILD = SV_RANK
$CHILD = SV_CONDITION_NUMBER
$CHILD = SV_DEPENDENCY_INDICATOR
$CHILD = PID
$PARENT = SINGULAR_VALUES

125
$ID = FUNCTION
$NAME = Function
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$PARENT = FUNCTIONS

126
$ID = SENSOR
$NAME = Sensor
$DTYPE = ENTITY
$CATEGORY = NONE
$CHILD = PID_DOF
$CHILD = TRANSLATION_NORM
$PARENT = SENSORS

127
$ID = SENSITIVITY
$NAME = Sensitivity
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$CHILD = TRANSLATIONAL_STIFFNESS
$CHILD = POINT_MASS
$CHILD = STRUCTURAL_DAMPING
$CHILD = SENSITIVITY_SLOPE
$CHILD = PID
$APPLYTO = VIRTUAL_NODE {$POS=DOF}
$PARENT = DATA_SOURCE
$PARENT = SENSITIVITIES

128
$ID = RVAC
$NAME = Response vector assurance criterion
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$APPLYTO = VIRTUAL_NODE {$POS=DOF}
$PARENT = DATA_SOURCE
$PARENT = RVACS

129
$ID = CROSSPOWER
$NAME = Crosspower
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$CHILD = DISPLACEMENT_BY_REF_VELOCITY
$CHILD = DISPLACEMENT_BY_REF_ACCELERATION
$CHILD = DISPLACEMENT_BY_REF_FORCE
$CHILD = DISPLACEMENT_BY_REF_VOLUME_VELOCITY
$CHILD = DISPLACEMENT_BY_REF_VOLUME_ACCELERATION
$CHILD = DISPLACEMENT_BY_REF_PRESSURE
$CHILD = VELOCITY_BY_REF_DISPLACEMENT
$CHILD = VELOCITY_BY_REF_ACCELERATION
$CHILD = VELOCITY_BY_REF_FORCE
$CHILD = VELOCITY_BY_REF_VOLUME_VELOCITY
$CHILD = VELOCITY_BY_REF_VOLUME_ACCELERATION
$CHILD = VELOCITY_BY_REF_PRESSURE
$CHILD = ACCELERATION_BY_REF_DISPLACEMENT
$CHILD = ACCELERATION_BY_REF_VELOCITY
$CHILD = ACCELERATION_BY_REF_FORCE
$CHILD = ACCELERATION_BY_REF_VOLUME_VELOCITY
$CHILD = ACCELERATION_BY_REF_VOLUME_ACCELERATION
$CHILD = ACCELERATION_BY_REF_PRESSURE
$CHILD = PRESSURE_BY_REF_DISPLACEMENT
$CHILD = PRESSURE_BY_REF_VELOCITY
$CHILD = PRESSURE_BY_REF_ACCELERATION
$CHILD = PRESSURE_BY_REF_FORCE
$CHILD = PRESSURE_BY_REF_VOLUME_VELOCITY
$CHILD = PRESSURE_BY_REF_VOLUME_ACCELERATION
$CHILD = ACCELERATION_BY_REF_ACCELERATION
$CHILD = PRESSURE_BY_REF_PRESSURE
$CHILD = DISPLACEMENT_BY_REF_DISPLACEMENT
$CHILD = VELOCITY_BY_REF_VELOCITY
$CHILD = FORCE_BY_REF_FORCE
$CHILD = STRESS_BY_REF_STRESS
$CHILD = RPF_BY_REF_RPF
$CHILD = MPF_BY_REF_MPF
$CHILD = PSD
$CHILD = PSD_PRESSURE
$CHILD = PSD_DISPLACEMENT
$CHILD = PSD_VELOCITY
$CHILD = PSD_ACCELERATION
$CHILD = PSD_TRANSLATION
$CHILD = PSD_TRANSLATIONAL_VELOCITY
$CHILD = PSD_TRANSLATIONAL_ACCELERATION
$CHILD = PSD_ROTATION
$CHILD = PSD_ROTATIONAL_VELOCITY
$CHILD = PSD_ROTATIONAL_ACCELERATION
$CHILD = PSD_STRESS
$CHILD = PSD_STRAIN
$CHILD = PSD_FORCE
$CHILD = PSD_MOMENT
$CHILD = PSD_VOLUME_VELOCITY
$CHILD = PSD_VOLUME_ACCELERATION
$CHILD = PSD_DISPLACEMENT_BY_VELOCITY
$CHILD = PSD_DISPLACEMENT_BY_ACCELERATION
$CHILD = PSD_VELOCITY_BY_ACCELERATION
$CHILD = PSD_DISPLACEMENT_BY_FORCE
$CHILD = PSD_DISPLACEMENT_BY_VOLUME_VELOCITY
$CHILD = PSD_DISPLACEMENT_BY_VOLUME_ACCELERATION
$CHILD = PSD_DISPLACEMENT_BY_PRESSURE
$CHILD = PSD_VELOCITY_BY_FORCE
$CHILD = PSD_VELOCITY_BY_VOLUME_VELOCITY
$CHILD = PSD_VELOCITY_BY_VOLUME_ACCELERATION
$CHILD = PSD_VELOCITY_BY_PRESSURE
$CHILD = PSD_ACCELERATION_BY_FORCE
$CHILD = PSD_ACCELERATION_BY_VOLUME_VELOCITY
$CHILD = PSD_ACCELERATION_BY_VOLUME_ACCELERATION
$CHILD = PSD_ACCELERATION_BY_PRESSURE
$CHILD = PSD_PRESSURE_BY_FORCE
$CHILD = PSD_PRESSURE_BY_VOLUME_VELOCITY
$CHILD = PSD_PRESSURE_BY_VOLUME_ACCELERATION
$CHILD = PSD_VELOCITY_BY_DISPLACEMENT
$CHILD = PSD_ACCELERATION_BY_DISPLACEMENT
$CHILD = PSD_ACCELERATION_BY_VELOCITY
$CHILD = PSD_FORCE_BY_DISPLACEMENT
$CHILD = PSD_VOLUME_VELOCITY_BY_DISPLACEMENT
$CHILD = PSD_VOLUME_ACCELERATION_BY_DISPLACEMENT
$CHILD = PSD_PRESSURE_BY_DISPLACEMENT
$CHILD = PSD_FORCE_BY_VELOCITY
$CHILD = PSD_VOLUME_VELOCITY_BY_VELOCITY
$CHILD = PSD_VOLUME_ACCELERATION_BY_VELOCITY
$CHILD = PSD_PRESSURE_BY_VELOCITY
$CHILD = PSD_FORCE_BY_ACCELERATION
$CHILD = PSD_VOLUME_VELOCITY_BY_ACCELERATION
$CHILD = PSD_VOLUME_ACCELERATION_BY_ACCELERATION
$CHILD = PSD_PRESSURE_BY_ACCELERATION
$CHILD = PSD_FORCE_BY_PRESSURE
$CHILD = PSD_VOLUME_VELOCITY_BY_PRESSURE
$CHILD = PSD_VOLUME_ACCELERATION_BY_PRESSURE
$CHILD = LOCAL_AXIS
$CHILD = FORCE_BY_REF_DISPLACEMENT
$CHILD = FORCE_BY_REF_ACCELERATION
$CHILD = FORCE_BY_REF_VELOCITY
$CHILD = FORCE_BY_REF_PRESSURE
$CHILD = FORCE_BY_REF_VOLUME_VELOCITY
$CHILD = FORCE_BY_REF_STRESS
$CHILD = FORCE_BY_REF_STRAIN
$CHILD = DISPLACEMENT_BY_REF_STRAIN
$CHILD = DISPLACEMENT_BY_REF_STRESS
$CHILD = VELOCITY_BY_REF_STRAIN
$CHILD = VELOCITY_BY_REF_STRESS
$CHILD = ACCELERATION_BY_REF_STRAIN
$CHILD = ACCELERATION_BY_REF_STRESS
$CHILD = PRESSURE_BY_REF_STRAIN
$CHILD = PRESSURE_BY_REF_STRESS
$CHILD = STRAIN_BY_REF_STRAIN
$CHILD = FORCE_BY_REF_VOLUME_ACCELERATION
$APPLYTO = VIRTUAL_NODE {$POS=DOF}
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWERS

130
$ID = FRAC
$NAME = Frequency response assurance criterion
$DTYPE = ENTITY
$CATEGORY = IEXPRESSION
$APPLYTO = VIRTUAL_NODE {$POS=DOF}
$PARENT = DATA_SOURCE
$PARENT = FRACS

131
$ID = POSTPROCESSING
$NAME = Post-Processing
$DTYPE = ENTITY
$CATEGORY = NONE
$CHILD = POSTPROCESSING_CHARAC
$PARENT = POSTPROCESSINGS

132
$ID = BOUNDARY_CONDITION_INLET
$NAME = Inlet boundary condition
$DTYPE = ENTITY
$CATEGORY = BOUNDARY_CONDITION
$CHILD = FLOW_VELOCITY
$CHILD = PRESSURE
$CHILD = TOTAL_PRESSURE
$CHILD = MASS_FLOW_RATE
$CHILD = FLOW_RATE
$CHILD = TEMPERATURE
$CHILD = TOTAL_TEMPERATURE
$CHILD = DIRECTION
$CHILD = FLOW_TURBULENCE
$CHILD = LENGTH_SCALE
$CHILD = HOLE_SIZE
$CHILD = BLADE_SPAN
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_FLUID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_HEXA8 {$POS=FACE}
$PARENT = BOUNDARY_CONDITIONS

133
$ID = BOUNDARY_CONDITION_OUTLET
$NAME = Outlet boundary condition
$DTYPE = ENTITY
$CATEGORY = BOUNDARY_CONDITION
$CHILD = FLOW_VELOCITY
$CHILD = PRESSURE
$CHILD = MASS_FLOW_RATE
$CHILD = FLOW_RATE
$CHILD = FLOW_TURBULENCE
$CHILD = LENGTH_SCALE
$APPLYTO = ELEMENT_FLUID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_HEXA8 {$POS=FACE}
$PARENT = BOUNDARY_CONDITIONS

134
$ID = BOUNDARY_CONDITION_WALL
$NAME = Wall boundary condition
$DTYPE = ENTITY
$CATEGORY = BOUNDARY_CONDITION
$CHILD = TEMPERATURE
$CHILD = HEAT_FLUX
$CHILD = HEAT_TRANSFER_COEFF
$APPLYTO = ELEMENT_FLUID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_HEXA8 {$POS=FACE}
$PARENT = BOUNDARY_CONDITIONS

135
$ID = BOUNDARY_CONDITION_MOVING_BELT
$NAME = Moving belt boundary condition
$DTYPE = ENTITY
$CATEGORY = BOUNDARY_CONDITION
$CHILD = BELT_SPEED [!]
$CHILD = DIRECTION [!]
$CHILD = TEMPERATURE
$CHILD = HEAT_FLUX
$CHILD = HEAT_TRANSFER_COEFF
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_FLUID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_HEXA8 {$POS=FACE}
$PARENT = BOUNDARY_CONDITIONS

136
$ID = BOUNDARY_CONDITION_LIQUID_SURFACE
$NAME = Liquid surface boundary condition
$DTYPE = ENTITY
$CATEGORY = BOUNDARY_CONDITION
$APPLYTO = ELEMENT_FLUID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_FLUID_3D_HEXA8 {$POS=FACE}
$PARENT = BOUNDARY_CONDITIONS

137
$ID = ELEMENT_BAR_3D_BAR2
$NAME = 3D 2 node bar element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_CONTACT_INTERFACE
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_BAR_3D

138
$ID = ELEMENT_BAR_3D_BAR3
$NAME = 3D 3 node bar element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR3]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_CONTACT_INTERFACE
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_BAR_3D

139
$ID = ELEMENT_BEAM_3D_BAR2
$NAME = 3D 2 node beam element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = CLAMP
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2}
$CHILD = WARPING_NODE_A
$CHILD = WARPING_NODE_B
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_BEAM_3D
$APPLYBY = PROPERTY_BEAM_3D_VARIABLE

140
$ID = ELEMENT_BEAM_3D_BAR3
$NAME = 3D 3 node beam element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR3]
$DOF = CLAMP
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_BEAM_3D
$APPLYBY = PROPERTY_BEAM_3D_VARIABLE

141
$ID = ELEMENT_BEAM_3D_BAR2_CURVED
$NAME = 3D 2 node curved beam element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = CLAMP
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$CHILD = CURVED_BEAM_CONNECTION_TYPE
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_BEAM_3D_CURVED

142
$ID = ELEMENT_SPRING_3D
$NAME = 3D spring element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = CLAMP
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_SPRING_3D

143
$ID = ELEMENT_SPRING_3D_TRANSLATION
$NAME = 3D spring translation element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = BALL_JOIN
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_SPRING_3D

144
$ID = ELEMENT_SPRING_BEAM_3D_BAR2
$NAME = 3D 2 node spring beam element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = CLAMP
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_SPRING_BEAM_3D

145
$ID = ELEMENT_DAMPER_3D
$NAME = 3D damper element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = CLAMP
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_DAMPER_3D

146
$ID = ELEMENT_DAMPER_3D_THERMAL
$NAME = 3D thermal damper element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = CLAMP
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_DAMPER_3D_THERMAL

147
$ID = ELEMENT_SHEAR_3D_QUAD4
$NAME = 3D 4 node shear element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD4]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_SHEAR_PANEL_3D

148
$ID = ELEMENT_SHELL_3D_TRIA3
$NAME = 3D 3 node shell element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR3]
$DOF = CLAMP
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_CONTACT_INTERFACE
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = PROPERTY_RTM_SHELL
$APPLYBY = PROPERTY_TFA_SHELL
$APPLYBY = PROPERTY_RTM_RUNNER
$APPLYBY = PROPERTY_RTM_SHELL_CPD

149
$ID = ELEMENT_SHELL_3D_QUAD4
$NAME = 3D 4 node shell element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD4]
$DOF = CLAMP
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_CONTACT_INTERFACE
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_SHEAR_PANEL_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = PROPERTY_RTM_SHELL
$APPLYBY = PROPERTY_TFA_SHELL
$APPLYBY = PROPERTY_RTM_RUNNER
$APPLYBY = PROPERTY_RTM_SHELL_CPD

150
$ID = ELEMENT_SHELL_3D_TRIA6
$NAME = 3D 6 node shell element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR6]
$DOF = CLAMP
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = PROPERTY_TFA_SHELL

151
$ID = ELEMENT_SHELL_3D_QUAD8
$NAME = 3D 8 node shell element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD8]
$DOF = CLAMP
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = PROPERTY_TFA_SHELL

152
$ID = ELEMENT_PLATE_3D_TRIA3
$NAME = 3D 3 node plate element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR3]
$DOF = CLAMP
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D

153
$ID = ELEMENT_PLATE_3D_QUAD4
$NAME = 3D 4 node plate element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD4]
$DOF = CLAMP
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D

154
$ID = ELEMENT_MEMBRANE_3D_TRIA3
$NAME = 3D 3 node membrane element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR3]
$DOF = BALL_JOIN
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D

155
$ID = ELEMENT_MEMBRANE_3D_QUAD4
$NAME = 3D 4 node membrane element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD4]
$DOF = BALL_JOIN
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D

156
$ID = ELEMENT_MEMBRANE_3D_TRIA6
$NAME = 3D 6 node membrane element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR6]
$DOF = BALL_JOIN
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D

157
$ID = ELEMENT_MEMBRANE_3D_QUAD8
$NAME = 3D 8 node membrane element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD8]
$DOF = BALL_JOIN
$CHILD = MATERIAL_ANGLE
$CHILD = SURFACE_OFFSET
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SHELL_3D
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE
$APPLYBY = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$APPLYBY = PROPERTY_MEMBRANE_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D

158
$ID = ELEMENT_PLANE_STRAIN_3D_TRIA3
$NAME = 3D 3 node plane strain element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR3]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = PROPERTY_SOLID_3D

159
$ID = ELEMENT_PLANE_STRAIN_3D_QUAD4
$NAME = 3D 4 node plane strain element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD4]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = PROPERTY_SOLID_3D

160
$ID = ELEMENT_PLANE_STRAIN_3D_TRIA6
$NAME = 3D 6 node plane strain element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR6]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = PROPERTY_SOLID_3D

161
$ID = ELEMENT_PLANE_STRAIN_3D_QUAD8
$NAME = 3D 8 node plane strain element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD8]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = PROPERTY_SOLID_3D

162
$ID = ELEMENT_DRAWING_3D_BAR2
$NAME = 3D 2 nodes drawing bar element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$PARENT = ELEMENTS

163
$ID = ELEMENT_DRAWING_3D_TRIA3
$NAME = 3D 3 nodes drawing triangle element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TR3]
$PARENT = ELEMENTS

164
$ID = ELEMENT_DRAWING_3D_QUAD4
$NAME = 3D 4 nodes drawing quadrangle element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [QD4]
$PARENT = ELEMENTS

165
$ID = ELEMENT_SOLID_3D_TETRA4
$NAME = 3D solid 4 node tetrahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TE4]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = PROPERTY_RTM_SOLID
$APPLYBY = RESTRAINT_CONTACT
$APPLYBY = PROPERTY_RTM_RUNNER

166
$ID = ELEMENT_SOLID_3D_PYRA5
$NAME = 3D solid 5 node pyramid element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [PY5]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = RESTRAINT_CONTACT

167
$ID = ELEMENT_SOLID_3D_PENTA6
$NAME = 3D solid 6 node pentahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [WE6]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = PROPERTY_RTM_SOLID
$APPLYBY = RESTRAINT_CONTACT
$APPLYBY = PROPERTY_RTM_RUNNER

168
$ID = ELEMENT_SOLID_3D_HEXA8
$NAME = 3D solid 8 node hexahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [HE8]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = RESTRAINT_CONTACT
$APPLYBY = PROPERTY_RTM_RUNNER

169
$ID = ELEMENT_SOLID_3D_TETRA10
$NAME = 3D solid 10 node tetrahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TE10]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = RESTRAINT_CONTACT

170
$ID = ELEMENT_SOLID_3D_PYRA13
$NAME = 3D solid 13 node pyramid element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [PY13]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = RESTRAINT_CONTACT

171
$ID = ELEMENT_SOLID_3D_PENTA15
$NAME = 3D solid 15 node pentahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [WE15]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = RESTRAINT_CONTACT

172
$ID = ELEMENT_SOLID_3D_HEXA20
$NAME = 3D solid 20 node hexahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [HE20]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_LINEIC_FORCE
$APPLYBY = LOAD_PRESSURE
$APPLYBY = LOAD_SURFACIC_FORCE
$APPLYBY = LOAD_VOLUMIC_FORCE
$APPLYBY = LOAD_TRANSLATIONAL_ACCELERATION
$APPLYBY = LOAD_ROTATION_FORCE
$APPLYBY = LOAD_TEMPERATURE_FIELD
$APPLYBY = LOAD_HEAT_FLUX
$APPLYBY = LOAD_CONVECTION
$APPLYBY = LOAD_THERMAL_GLUING
$APPLYBY = LOAD_RADIATION
$APPLYBY = MASS_LINEIC_MASS
$APPLYBY = MASS_SURFACIC_MASS
$APPLYBY = MASS_VOLUMIC_MASS
$APPLYBY = PROPERTY_SOLID_3D
$APPLYBY = PROPERTY_FLUID_3D
$APPLYBY = PROPERTY_ACOUSTIC_3D
$APPLYBY = RESTRAINT_CONTACT

173
$ID = ELEMENT_CONTACT_3D_NODAL
$NAME = 3D nodal contact element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = BALL_JOIN
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$PARENT = ELEMENTS
$APPLYBY = LOAD_CLEARANCE
$APPLYBY = PROPERTY_CONTACT_3D

174
$ID = ELEMENT_CONSTRAINT_3D_AXIAL
$NAME = 3D axial constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$DOF = BALL_JOIN
$PARENT = ELEMENTS
$APPLYBY = LOAD_CLEARANCE
$APPLYBY = PROPERTY_CONSTRAINT_3D_AXIAL
$APPLYBY = PROPERTY_CONSTRAINT_3D_CABLE
$APPLYBY = PROPERTY_CONSTRAINT_3D_CONTACT
$APPLYBY = PROPERTY_CONSTRAINT_3D_PERIODIC
$APPLYBY = PROPERTY_CONSTRAINT_3D_RIGID
$APPLYBY = PROPERTY_CONSTRAINT_3D_TIGHTENING

175
$ID = ELEMENT_CONSTRAINT_3D_JOIN_SHELL_TO_SHELL
$NAME = 3D join shell to shell constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$PARENT = ELEMENTS
$APPLYBY = LOAD_CLEARANCE
$APPLYBY = PROPERTY_CONSTRAINT_3D_AXIAL
$APPLYBY = PROPERTY_CONSTRAINT_3D_CONTACT
$APPLYBY = PROPERTY_CONSTRAINT_3D_MEAN

176
$ID = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SHELL
$NAME = 3D join solid to shell constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$PARENT = ELEMENTS
$APPLYBY = LOAD_CLEARANCE
$APPLYBY = PROPERTY_CONSTRAINT_3D_AXIAL
$APPLYBY = PROPERTY_CONSTRAINT_3D_CONTACT
$APPLYBY = PROPERTY_CONSTRAINT_3D_MEAN

177
$ID = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID
$NAME = 3D join solid to solid constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$PARENT = ELEMENTS
$APPLYBY = LOAD_CLEARANCE
$APPLYBY = PROPERTY_CONSTRAINT_3D_AXIAL
$APPLYBY = PROPERTY_CONSTRAINT_3D_CABLE
$APPLYBY = PROPERTY_CONSTRAINT_3D_CONTACT
$APPLYBY = PROPERTY_CONSTRAINT_3D_FITTING
$APPLYBY = PROPERTY_CONSTRAINT_3D_MEAN
$APPLYBY = PROPERTY_CONSTRAINT_3D_TIGHTENING

178
$ID = ELEMENT_CONSTRAINT_3D_MEAN
$NAME = 3D mean displacement constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$DOF = CLAMP
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_MEAN

179
$ID = ELEMENT_CONSTRAINT_3D_MEAN_ROTATION
$NAME = 3D mean rotation displacement constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$DOF = CLAMP
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_MEAN

180
$ID = ELEMENT_CONSTRAINT_3D_MEAN_TRANSLATION
$NAME = 3D mean translation displacement constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$DOF = CLAMP, BALL_JOIN
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_MEAN

181
$ID = ELEMENT_CONSTRAINT_3D_RIGID
$NAME = 3D rigid body constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$DOF = CLAMP
$CHILD = SPRING_DAMPER_LOCATION {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_RIGID
$APPLYBY = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER
$APPLYBY = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER_FREQUENCY_DEPENDENT
$APPLYBY = PROPERTY_CONSTRAINT_3D_TIGHTENING

182
$ID = ELEMENT_CONSTRAINT_3D_RIGID_TRANSLATION
$NAME = 3D rigid body translation constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SPIDER]
$DOF = CLAMP, BALL_JOIN
$CHILD = REVERSE_CONNECTIVITY {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_RIGID
$APPLYBY = PROPERTY_CONSTRAINT_3D_TIGHTENING

183
$ID = ELEMENT_CONSTRAINT_3D_RIGID_COINCIDENCE
$NAME = 3D rigid body coincidence constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [BAR]
$DOF = CLAMP
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_RIGID

184
$ID = ELEMENT_PROXY
$NAME = Element proxy
$DTYPE = ENTITY
$CATEGORY = ELEMENT [UNDEFINED]
$PARENT = ELEMENTS

185
$ID = ELEMENT_CONSTRAINT_3D_SPLINE
$NAME = 3D spline constraint element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [SNAKE]
$DOF = CLAMP
$CHILD = LOCAL_AXIS
$PARENT = ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_SPLINE

186
$ID = ELEMENT_FLUID_3D_TETRA4
$NAME = 3D fluid 4 node tetrahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [TE4]
$DOF = FLUID
$PARENT = ELEMENTS
$APPLYBY = BOUNDARY_CONDITION_INLET
$APPLYBY = BOUNDARY_CONDITION_OUTLET
$APPLYBY = BOUNDARY_CONDITION_WALL
$APPLYBY = BOUNDARY_CONDITION_MOVING_BELT
$APPLYBY = BOUNDARY_CONDITION_LIQUID_SURFACE
$APPLYBY = PROPERTY_FLUID_3D

187
$ID = ELEMENT_FLUID_3D_PYRA5
$NAME = 3D fluid 5 node pyramid element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [PY5]
$DOF = FLUID
$PARENT = ELEMENTS
$APPLYBY = BOUNDARY_CONDITION_INLET
$APPLYBY = BOUNDARY_CONDITION_OUTLET
$APPLYBY = BOUNDARY_CONDITION_WALL
$APPLYBY = BOUNDARY_CONDITION_MOVING_BELT
$APPLYBY = BOUNDARY_CONDITION_LIQUID_SURFACE
$APPLYBY = PROPERTY_FLUID_3D

188
$ID = ELEMENT_FLUID_3D_PENTA6
$NAME = 3D fluid 6 node pentahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [WE6]
$DOF = FLUID
$PARENT = ELEMENTS
$APPLYBY = BOUNDARY_CONDITION_INLET
$APPLYBY = BOUNDARY_CONDITION_OUTLET
$APPLYBY = BOUNDARY_CONDITION_WALL
$APPLYBY = BOUNDARY_CONDITION_MOVING_BELT
$APPLYBY = BOUNDARY_CONDITION_LIQUID_SURFACE
$APPLYBY = PROPERTY_FLUID_3D

189
$ID = ELEMENT_FLUID_3D_HEXA8
$NAME = 3D fluid 8 node hexahedron element
$DTYPE = ENTITY
$CATEGORY = ELEMENT [HE8]
$DOF = FLUID
$PARENT = ELEMENTS
$APPLYBY = BOUNDARY_CONDITION_INLET
$APPLYBY = BOUNDARY_CONDITION_OUTLET
$APPLYBY = BOUNDARY_CONDITION_WALL
$APPLYBY = BOUNDARY_CONDITION_MOVING_BELT
$APPLYBY = BOUNDARY_CONDITION_LIQUID_SURFACE
$APPLYBY = PROPERTY_FLUID_3D


190
$ID = MATERIAL_ISOTROPIC
$NAME = Isotropic material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = POISSON_RATIO [!]
$CHILD = YOUNG_MODULUS [!]
$CHILD = DENSITY
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION
$CHILD = LOCAL_AXIS
$CHILD = SPECIFIC_HEAT
$CHILD = THERMAL_CONDUCTIVITY
$CHILD = YIELD_STRENGTH
$CHILD = YIELD_STRENGTH_X {$REF=LOCAL_AXIS}
$CHILD = HARDENING_SLOPE_X {$REF=LOCAL_AXIS}
$CHILD = STRUCTURAL_DAMPING {$REF=LOCAL_AXIS}
$PARENT = MATERIALS


191
$ID = MATERIAL_ORTHOTROPIC
$NAME = Orthotropic material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = YOUNG_MODULUS_X [!]
$CHILD = YOUNG_MODULUS_Y [!]
$CHILD = POISSON_RATIO_XY [!]
$CHILD = SHEAR_MODULUS_XY [!]
$CHILD = SHEAR_MODULUS_XZ [!]
$CHILD = SHEAR_MODULUS_YZ [!]
$CHILD = DENSITY [!]
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION_X
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION_Y
$CHILD = TENSILE_STRESS_LIMIT_X
$CHILD = TENSILE_STRESS_LIMIT_Y
$CHILD = COMPRESSIVE_STRESS_LIMIT_X
$CHILD = COMPRESSIVE_STRESS_LIMIT_Y
$CHILD = TENSILE_STRAIN_LIMIT_X
$CHILD = TENSILE_STRAIN_LIMIT_Y
$CHILD = COMPRESSIVE_STRAIN_LIMIT_X
$CHILD = COMPRESSIVE_STRAIN_LIMIT_Y
$CHILD = STRUCTURAL_DAMPING
$CHILD = SHEAR_STRESS_LIMIT_XY
$PARENT = MATERIALS


192
$ID = MATERIAL_ORTHOTROPIC_3D
$NAME = Orthotropic material 3D
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = YOUNG_MODULUS_X [!]
$CHILD = YOUNG_MODULUS_Y [!]
$CHILD = YOUNG_MODULUS_Z [!]
$CHILD = POISSON_RATIO_XY [!]
$CHILD = POISSON_RATIO_XZ [!]
$CHILD = POISSON_RATIO_YZ [!]
$CHILD = SHEAR_MODULUS_XY [!]
$CHILD = SHEAR_MODULUS_XZ [!]
$CHILD = SHEAR_MODULUS_YZ [!]
$CHILD = DENSITY [!]
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION {$DIM=3}
$CHILD = TENSILE_STRESS_LIMIT_X
$CHILD = TENSILE_STRESS_LIMIT_Y
$CHILD = COMPRESSIVE_STRESS_LIMIT_X
$CHILD = COMPRESSIVE_STRESS_LIMIT_Y
$CHILD = SHEAR_STRESS_LIMIT_XY
$CHILD = SHEAR_STRESS_LIMIT_XZ
$CHILD = SHEAR_STRESS_LIMIT_YZ
$PARENT = MATERIALS


193
$ID = MATERIAL_FIBER
$NAME = Fiber material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = YOUNG_MODULUS_X [!]
$CHILD = YOUNG_MODULUS_Y [!]
$CHILD = POISSON_RATIO_XY [!]
$CHILD = SHEAR_MODULUS_XY [!]
$CHILD = SHEAR_MODULUS_YZ [!]
$CHILD = DENSITY [!]
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION_X
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION_Y
$CHILD = TENSILE_STRESS_LIMIT_X
$CHILD = TENSILE_STRESS_LIMIT_Y
$CHILD = COMPRESSIVE_STRESS_LIMIT_X
$CHILD = COMPRESSIVE_STRESS_LIMIT_Y
$CHILD = SHEAR_STRESS_LIMIT_XY
$CHILD = SHEAR_STRESS_LIMIT_YZ
$PARENT = MATERIALS


194
$ID = MATERIAL_HONEYCOMB
$NAME = Honeycomb material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = YOUNG_MODULUS_Z [!]
$CHILD = SHEAR_MODULUS_XZ [!]
$CHILD = SHEAR_MODULUS_YZ [!]
$CHILD = DENSITY [!]
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION
$CHILD = SHEAR_STRESS_LIMIT_XZ
$CHILD = SHEAR_STRESS_LIMIT_YZ
$PARENT = MATERIALS


195
$ID = MATERIAL_ANISOTROPIC
$NAME = Anisotropic material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = SHEAR_MODULUS_MATRIX [!]
$CHILD = DENSITY [!]
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION {$DIM=6}
$CHILD = STRUCTURAL_DAMPING
$PARENT = MATERIALS


196
$ID = MATERIAL_ANISOTROPIC_2D
$NAME = Anisotropic material 2D
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = SHEAR_MODULUS_MATRIX_2D [!]
$CHILD = DENSITY [!]
$CHILD = COEFFICIENT_OF_THERMAL_EXPANSION {$DIM=3} [!]
$CHILD = TENSILE_STRESS_LIMIT
$CHILD = COMPRESSIVE_STRESS_LIMIT
$CHILD = SHEAR_STRESS_LIMIT
$CHILD = STRUCTURAL_DAMPING
$PARENT = MATERIALS


197
$ID = MATERIAL_ANISOTROPIC_THERMAL
$NAME = Anisotropic material with thermal properties
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = DENSITY
$CHILD = SPECIFIC_HEAT
$CHILD = THERMAL_CONDUCTIVITY_MATRIX
$PARENT = MATERIALS


198
$ID = MATERIAL_FLUID
$NAME = Fluid material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = DENSITY
$CHILD = SOUND_SPEED
$CHILD = VISCOUS_DAMPING
$CHILD = THERMAL_CONDUCTIVITY
$CHILD = SPECIFIC_HEAT
$CHILD = MOLECULAR_WEIGHT
$CHILD = FLUID_VISCOSITY
$CHILD = CONSISTENCY_INDEX
$CHILD = POWER_LAW_INDEX
$CHILD = REFERENCE_TEMPERATURE
$CHILD = YIELD_STRESS_THRESHOLD
$CHILD = YIELDING_VISCOSITY
$CHILD = MINIMUM_VISCOSITY_LIMIT
$CHILD = MAXIMUM_VISCOSITY_LIMIT
$PARENT = MATERIALS


199
$ID = MATERIAL_RTM_RESIN
$NAME = Resin material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = VISCOSITY
$PARENT = MATERIALS


200
$ID = MATERIAL_RTM_RANDOM
$NAME = Random material
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = ISOTROPIC_PERMEABILITY
$PARENT = MATERIALS


201
$ID = MATERIAL_RTM_RUNNER
$NAME = Runner
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = ISOTROPIC_PERMEABILITY
$PARENT = MATERIALS


202
$ID = MATERIAL_ISOTROPIC_THERMAL
$NAME = Isotropic material with thermal properties
$DTYPE = ENTITY
$CATEGORY = MATERIAL
$CHILD = DENSITY
$CHILD = THERMAL_CONDUCTIVITY
$CHILD = SPECIFIC_HEAT
$CHILD = CONVECTION
$CHILD = VISCOSITY
$PARENT = MATERIALS


203
$ID = PROPERTY_BAR_3D
$NAME = 3D bar property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL [!]
$CHILD = CROSS_SECTIONAL_AREA [!]
$APPLYTO = ELEMENT_BAR_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BAR_3D_BAR3 {$POS=ELEMENT}
$PARENT = PROPERTIES


204
$ID = PROPERTY_BEAM_3D
$NAME = 3D beam property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = CROSS_SECTIONAL_AREA [!]
$CHILD = AREA_MOMENT_OF_INERTIA {$REF=LOCAL_AXIS} [!]
$CHILD = AREA_SHEAR_RATIO_XY {$REF=LOCAL_AXIS}
$CHILD = AREA_SHEAR_RATIO_XZ {$REF=LOCAL_AXIS}
$CHILD = SHEAR_CENTER {$REF=LOCAL_AXIS}
$CHILD = TORSIONAL_STIFFNESS_PARAMETER {$REF=LOCAL_AXIS}
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = VEXTEX_TRANSLATIONAL_STIFFNESS
$CHILD = VERTEX_ROTATIONAL_STIFFNESS
$CHILD = WARPING_NODE_A
$CHILD = WARPING_NODE_B
$CHILD = OFFSET {$REF=OFFSET_AXIS,LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = OFFSET_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=ELEMENT}
$PARENT = PROPERTIES


205
$ID = PROPERTY_BEAM_3D_CURVED
$NAME = 3D curved beam property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = CROSS_SECTIONAL_AREA [!]
$CHILD = AREA_MOMENT_OF_INERTIA {$REF=LOCAL_AXIS} [!]
$CHILD = AREA_SHEAR_RATIO_XY {$REF=LOCAL_AXIS}
$CHILD = AREA_SHEAR_RATIO_XZ {$REF=LOCAL_AXIS}
$CHILD = TORSIONAL_STIFFNESS_PARAMETER {$REF=LOCAL_AXIS}
$CHILD = OFFSET {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_BEAM_3D_BAR2_CURVED {$POS=ELEMENT}
$PARENT = PROPERTIES

206
$ID = PROPERTY_BEAM_3D_VARIABLE
$NAME = 3D variable beam property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = NB_POSITIONS [!#]
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = POSITIONS {$RANGE=NB_POSITIONS} [!#]
$CHILD = CROSS_SECTIONAL_AREA {$RANGE=NB_POSITIONS} [!]
$CHILD = AREA_MOMENT_OF_INERTIA {$RANGE=NB_POSITIONS; $REF=LOCAL_AXIS} [!]
$CHILD = AREA_SHEAR_RATIO_XY {$RANGE=NB_POSITIONS; $REF=LOCAL_AXIS} [!]
$CHILD = AREA_SHEAR_RATIO_XZ {$RANGE=NB_POSITIONS; $REF=LOCAL_AXIS} [!]
$CHILD = SHEAR_CENTER {$REF=LOCAL_AXIS}
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = WARPING_NODE_A
$CHILD = WARPING_NODE_B
$CHILD = TORSIONAL_STIFFNESS_PARAMETER {$REF=LOCAL_AXIS}
$CHILD = OFFSET {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_BEAM_3D_BAR2 {$POS=ELEMENT}
$APPLYTO = ELEMENT_BEAM_3D_BAR3 {$POS=ELEMENT}
$PARENT = PROPERTIES


207
$ID = PROPERTY_SHELL_3D
$NAME = 3D shell property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = THICKNESS [!]
$CHILD = MATERIAL_ANGLE {$REF=LOCAL_AXIS}
$CHILD = SURFACE_OFFSET {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = AXIS_TYPE
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$PARENT = PROPERTIES


208
$ID = PROPERTY_SHELL_3D_COMPOSITE
$NAME = 3D composite property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = NB_LAMINATES [!]
$CHILD = MATERIAL {$RANGE=NB_LAMINATES; $REF=LOCAL_AXIS} [!]
$CHILD = THICKNESS {$RANGE=NB_LAMINATES} [!]
$CHILD = ANGLE {$RANGE=NB_LAMINATES; $REF=LOCAL_AXIS} [!]
$CHILD = PLY_ID {$RANGE=NB_LAMINATES}
$CHILD = MATERIAL_ANGLE {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=ELEMENT}
$PARENT = PROPERTIES

209
$ID = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$NAME = 3D homogeneous composite property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = NB_LAMINATES [!]
$CHILD = MATERIAL {$RANGE=NB_LAMINATES; $REF=LOCAL_AXIS} [!]
$CHILD = THICKNESS {$RANGE=NB_LAMINATES} [!]
$CHILD = ANGLE {$RANGE=NB_LAMINATES; $REF=LOCAL_AXIS} [!]
$CHILD = PLY_ID {$RANGE=NB_LAMINATES}
$CHILD = LOCAL_AXIS
$CHILD = MATERIAL_ANGLE {$REF=LOCAL_AXIS}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=ELEMENT}
$PARENT = PROPERTIES


210
$ID = PROPERTY_MEMBRANE_3D
$NAME = 3D membrane property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = THICKNESS [!]
$CHILD = LOCAL_AXIS
$CHILD = AXIS_TYPE
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$PARENT = PROPERTIES


211
$ID = PROPERTY_SHEAR_PANEL_3D
$NAME = 3D shear panel property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = THICKNESS [!]
$CHILD = ROD_AREA_RATIO {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = AXIS_TYPE
$APPLYTO = ELEMENT_SHEAR_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$PARENT = PROPERTIES


212
$ID = PROPERTY_CONTACT_3D
$NAME = 3D contact property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = CLEARANCE {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_CONTACT_3D_NODAL {$POS=ELEMENT}
$PARENT = PROPERTIES


213
$ID = PROPERTY_SPRING_3D
$NAME = 3D spring property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = TRANSLATIONAL_STIFFNESS {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_STIFFNESS {$REF=LOCAL_AXIS}
$CHILD = TRANSLATIONAL_STIFFNESS_MATRIX {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_STIFFNESS_MATRIX {$REF=LOCAL_AXIS}
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = STRUCTURAL_DAMPING {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_SPRING_3D {$POS=ELEMENT}
$APPLYTO = ELEMENT_SPRING_3D_TRANSLATION {$POS=ELEMENT}
$APPLYTO = ELEMENT_SPRING_3D_VIRTUAL {$POS=VIRTUAL_ELEMENT}
$PARENT = PROPERTIES


214
$ID = PROPERTY_SPRING_BEAM_3D
$NAME = 3D spring beam property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MASS_INERTIA {$REF=LOCAL_AXIS} [!]
$CHILD = AREA_MOMENT_OF_INERTIA {$REF=LOCAL_AXIS} [!]
$CHILD = TRANSLATIONAL_STIFFNESS {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_STIFFNESS {$REF=LOCAL_AXIS}
$CHILD = TRANSLATIONAL_STIFFNESS_MATRIX {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_STIFFNESS_MATRIX {$REF=LOCAL_AXIS}
$CHILD = STRUCTURAL_DAMPING {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_SPRING_BEAM_3D_BAR2 {$POS=ELEMENT}
$PARENT = PROPERTIES


215
$ID = PROPERTY_DAMPER_3D
$NAME = 3D damper property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = TRANSLATIONAL_DAMPING
$CHILD = ROTATIONAL_DAMPING
$CHILD = TRANSLATIONAL_DAMPING_MATRIX
$CHILD = ROTATIONAL_DAMPING_MATRIX
$APPLYTO = ELEMENT_DAMPER_3D {$POS=ELEMENT}
$APPLYTO = ELEMENT_DAMPER_3D_VIRTUAL {$POS=VIRTUAL_ELEMENT}
$PARENT = PROPERTIES


216
$ID = PROPERTY_DAMPER_3D_THERMAL
$NAME = 3D thermal damper property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL [!]
$CHILD = DAMPING_MULTIPLIER [!]
$APPLYTO = ELEMENT_DAMPER_3D_THERMAL {$POS=ELEMENT}
$APPLYTO = ELEMENT_DAMPER_3D_THERMAL_VIRTUAL {$POS=VIRTUAL_ELEMENT}
$PARENT = PROPERTIES

217
$ID = PROPERTY_SOLID_3D
$NAME = 3D solid property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS
$CHILD = AXIS_TYPE
$CHILD = HEAT_GENERATION_RATE
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLANE_STRAIN_3D_QUAD8 {$POS=ELEMENT}
$PARENT = PROPERTIES


218
$ID = PROPERTY_FLUID_3D
$NAME = 3D fluid property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL {$REF=LOCAL_AXIS} [!]
$CHILD = POROSITY
$CHILD = OPEN_AREA
$CHILD = VISCOUS_RESISTANCE_COEFF
$CHILD = INERTIAL_RESISTANCE_COEFF
$CHILD = HEAT_GENERATION_RATE
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$APPLYTO = ELEMENT_FLUID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_FLUID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_FLUID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_FLUID_3D_HEXA8 {$POS=ELEMENT}
$PARENT = PROPERTIES


219
$ID = PROPERTY_ACOUSTIC_3D
$NAME = 3D acoustic property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL [!]
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_PLATE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_MEMBRANE_3D_QUAD8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=ELEMENT}
$PARENT = PROPERTIES


220
$ID = PROPERTY_MASS_3D
$NAME = 3D mass property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = POINT_MASS
$APPLYTO = ELEMENT_MASS_3D_VIRTUAL {$POS=VIRTUAL_ELEMENT}
$PARENT = PROPERTIES


221
$ID = PROPERTY_CONSTRAINT_3D_AXIAL
$NAME = 3D axial constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = DEGREES_OF_FREEDOM {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_CONSTRAINT_3D_AXIAL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SHELL_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID {$POS=ELEMENT}
$PARENT = PROPERTIES


222
$ID = PROPERTY_CONSTRAINT_3D_CABLE
$NAME = 3D cable constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = CLEARANCE {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_CONSTRAINT_3D_AXIAL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID {$POS=ELEMENT}
$PARENT = PROPERTIES


223
$ID = PROPERTY_CONSTRAINT_3D_CONTACT
$NAME = 3D contact constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = CLEARANCE {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_CONSTRAINT_3D_AXIAL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SHELL_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID {$POS=ELEMENT}
$PARENT = PROPERTIES


224
$ID = PROPERTY_CONSTRAINT_3D_FITTING
$NAME = 3D fitting constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = OVERLAP {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID {$POS=ELEMENT}
$PARENT = PROPERTIES


225
$ID = PROPERTY_CONSTRAINT_3D_MEAN
$NAME = 3D mean displacement constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = DEGREES_OF_FREEDOM {$REF=LOCAL_AXIS}
$CHILD = WEIGHTING_FACTOR {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SHELL_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SHELL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_MEAN {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_MEAN_ROTATION {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_MEAN_TRANSLATION {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_MEAN_VIRTUAL {$POS=VIRTUAL_ELEMENT}
$PARENT = PROPERTIES

226
$ID = PROPERTY_CONSTRAINT_3D_PERIODIC
$NAME = 3D periodic constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = TRANSFORMATION_3D
$APPLYTO = ELEMENT_CONSTRAINT_3D_AXIAL {$POS=ELEMENT}
$PARENT = PROPERTIES


227
$ID = PROPERTY_CONSTRAINT_3D_RIGID
$NAME = 3D rigid body constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_CONSTRAINT_3D_RIGID {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_RIGID_TRANSLATION {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_RIGID_COINCIDENCE {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_AXIAL {$POS=ELEMENT}
$PARENT = PROPERTIES

228
$ID = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER
$NAME = 3D spring damper constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = STRUCTURAL_DAMPING {$REF=LOCAL_AXIS} [!]
$CHILD = TRANSLATIONAL_DAMPING {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_DAMPING {$REF=LOCAL_AXIS}
$CHILD = TRANSLATIONAL_STIFFNESS {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_STIFFNESS {$REF=LOCAL_AXIS}
$CHILD = TRANSLATIONAL_DAMPING_MATRIX {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_DAMPING_MATRIX {$REF=LOCAL_AXIS}
$CHILD = TRANSLATIONAL_STIFFNESS_MATRIX {$REF=LOCAL_AXIS}
$CHILD = ROTATIONAL_STIFFNESS_MATRIX {$REF=LOCAL_AXIS}
$CHILD = SPRING_DAMPER_LOCATION {$REF=LOCAL_AXIS}
$CHILD = OFFSET {$REF=OFFSET_AXIS,LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = OFFSET_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_CONSTRAINT_3D_RIGID {$POS=ELEMENT}
$PARENT = PROPERTIES

229
$ID = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER_FREQUENCY_DEPENDENT
$NAME = 3D spring damper frequency dependent constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = EXPRESSION_POINTER {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS
$APPLYTO = ELEMENT_CONSTRAINT_3D_RIGID {$POS=ELEMENT}
$PARENT = PROPERTIES


230
$ID = PROPERTY_CONSTRAINT_3D_TIGHTENING
$NAME = 3D tightening constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = TIGHTENING_FORCE {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$CHILD = ORIENTATION_VECTOR
$CHILD = ORIENTATION_POINT
$CHILD = ORIENTATION_NODE
$APPLYTO = ELEMENT_CONSTRAINT_3D_AXIAL {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_RIGID {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_RIGID_TRANSLATION {$POS=ELEMENT}
$APPLYTO = ELEMENT_CONSTRAINT_3D_JOIN_SOLID_TO_SOLID {$POS=ELEMENT}
$PARENT = PROPERTIES


231
$ID = PROPERTY_RTM_SHELL
$NAME = RTM shell property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL
$CHILD = THICKNESS
$CHILD = FIBER_CONTENT
$CHILD = FIBER_DIR_1
$CHILD = FIBER_DIR_2
$CHILD = FIBER_DIR_3
$CHILD = PERMEABILITY_MATRIX
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$PARENT = PROPERTIES


232
$ID = PROPERTY_RTM_SOLID
$NAME = RTM solid property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = MATERIAL
$CHILD = FIBER_CONTENT
$CHILD = FIBER_DIR_1
$CHILD = FIBER_DIR_2
$CHILD = FIBER_DIR_3
$CHILD = PERMEABILITY_MATRIX
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$PARENT = PROPERTIES

233
$ID = PROPERTY_CONSTRAINT_3D_SPLINE
$NAME = 3D spline constraint property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = DEGREES_OF_FREEDOM
$CHILD = DIAMETER_RATIO
$APPLYTO = ELEMENT_CONSTRAINT_3D_SPLINE {$POS=ELEMENT}
$PARENT = PROPERTIES


234
$ID = PROPERTY_TFA_SHELL
$NAME = TFA shell property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = THICKNESS [!]
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_TRIA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD8 {$POS=ELEMENT}
$PARENT = PROPERTIES

235
$ID = RESTRAINT_DISPLACEMENT
$NAME = 3D displacement restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$CHILD = DEGREES_OF_FREEDOM {$REF=LOCAL_AXIS} [!%]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = RESTRAINTS

236
$ID = RESTRAINT_TEMPERATURE
$NAME = Temperature restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$CHILD = TEMPERATURE [!]
$APPLYTO = NODE {$POS=NODE}
$PARENT = RESTRAINTS

237
$ID = RESTRAINT_CONTACT
$NAME = 3D contact restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$CHILD = CONTACT_TYPE [!%]
$CHILD = FRICTION_TYPE [%]
$CHILD = FRICTION_RATIO [%]
$APPLYTO = NODE {$POS=NODE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA5 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_TETRA10 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PYRA13 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_PENTA15 {$POS=FACE}
$APPLYTO = ELEMENT_SOLID_3D_HEXA20 {$POS=FACE}
$PARENT = RESTRAINTS

238
$ID = RESTRAINT_INITIAL_DISPLACEMENT
$NAME = Initial displacement restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$CHILD = TRANSLATION {$REF=LOCAL_AXIS}
$CHILD = ROTATION {$REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = RESTRAINTS

239
$ID = RESTRAINT_INITIAL_VELOCITY
$NAME = Initial velocity restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$CHILD = TRANSLATIONAL_VELOCITY {$REF=LOCAL_AXIS} [!]
$CHILD = ROTATIONAL_VELOCITY {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = RESTRAINTS

240
$ID = RESTRAINT_INITIAL_ACCELERATION
$NAME = Initial acceleration restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$CHILD = TRANSLATIONAL_ACCELERATION {$REF=LOCAL_AXIS} [!]
$CHILD = ROTATIONAL_ACCELERATION {$REF=LOCAL_AXIS} [!]
$CHILD = LOCAL_AXIS [%]
$APPLYTO = NODE {$POS=NODE}
$PARENT = RESTRAINTS

241
$ID = RESTRAINT_INITIAL_TEMPERATURE
$NAME = Initial temperature restraint
$DTYPE = ENTITY
$CATEGORY = RESTRAINT
$CHILD = TEMPERATURE [!]
$APPLYTO = NODE {$POS=NODE}
$PARENT = RESTRAINTS

242
$ID = VIRTUAL_NODE
$NAME = Virtual Node
$DTYPE = ENTITY
$CATEGORY = VIRTUAL_NODE
$PARENT = VIRTUAL_NODES
$PARENT = ELEMENT_SPRING_3D_VIRTUAL
$PARENT = ELEMENT_DAMPER_3D_VIRTUAL
$PARENT = ELEMENT_DAMPER_3D_THERMAL_VIRTUAL
$PARENT = ELEMENT_MASS_3D_VIRTUAL
$PARENT = ELEMENT_CONSTRAINT_3D_MEAN_VIRTUAL
$APPLYBY = LOAD_FUNCTION
$APPLYBY = TRANSFER_FUNCTION
$APPLYBY = SENSITIVITY
$APPLYBY = RVAC
$APPLYBY = CROSSPOWER
$APPLYBY = FRAC

243
$ID = ELEMENT_SPRING_3D_VIRTUAL
$NAME = 3D spring virtual element
$DTYPE = ENTITY
$CATEGORY = VIRTUAL_ELEMENT [BAR]
$DOF = CLAMP
$CHILD = NODE
$CHILD = VIRTUAL_NODE
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = VIRTUAL_ELEMENTS
$APPLYBY = PROPERTY_SPRING_3D

244
$ID = ELEMENT_DAMPER_3D_VIRTUAL
$NAME = 3D damper virtual element
$DTYPE = ENTITY
$CATEGORY = VIRTUAL_ELEMENT [BAR]
$DOF = CLAMP
$CHILD = NODE
$CHILD = VIRTUAL_NODE
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = VIRTUAL_ELEMENTS
$APPLYBY = PROPERTY_DAMPER_3D

245
$ID = ELEMENT_DAMPER_3D_THERMAL_VIRTUAL
$NAME = 3D thermal damper virtual element
$DTYPE = ENTITY
$CATEGORY = VIRTUAL_ELEMENT [BAR]
$DOF = CLAMP
$CHILD = NODE
$CHILD = VIRTUAL_NODE
$PARENT = VIRTUAL_ELEMENTS
$APPLYBY = PROPERTY_DAMPER_3D_THERMAL

246
$ID = ELEMENT_MASS_3D_VIRTUAL
$NAME = 3D mass virtual element
$DTYPE = ENTITY
$CATEGORY = VIRTUAL_ELEMENT [BAR]
$DOF = CLAMP
$CHILD = NODE
$CHILD = VIRTUAL_NODE
$CHILD = DEGREES_OF_FREEDOM {$DIM=0, 1, 2; $REF=LOCAL_AXIS}
$CHILD = LOCAL_AXIS
$PARENT = VIRTUAL_ELEMENTS
$APPLYBY = PROPERTY_MASS_3D

247
$ID = ELEMENT_CONSTRAINT_3D_MEAN_VIRTUAL
$NAME = 3D mean displacement constraint virtual element
$DTYPE = ENTITY
$CATEGORY = VIRTUAL_ELEMENT [SPIDER]
$DOF = CLAMP
$CHILD = NODE
$CHILD = VIRTUAL_NODE
$CHILD = LOCAL_AXIS
$PARENT = VIRTUAL_ELEMENTS
$APPLYBY = PROPERTY_CONSTRAINT_3D_MEAN

248
$ID = YOUNG_MODULUS
$NAME = Young's modulus
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ISOTROPIC

249
$ID = YIELD_STRENGTH
$NAME = Yield strength
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ISOTROPIC

250
$ID = WEIGHTING_FACTOR
$NAME = Weighting factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_CONSTRAINT_3D_MEAN

251
$ID = VOLUMIC_MASS
$NAME = Volumic mass
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DENSITY
$PARENT = MASS_VOLUMIC_MASS

252
$ID = VOLUMIC_FORCE
$NAME = Volumic force vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = VOLFORCE
$PARENT = LOAD_VOLUMIC_FORCE

253
$ID = VISCOUS_DAMPING
$NAME = Viscous damping
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VISCOUS_DAMPING
$PARENT = MATERIAL_FLUID

254
$ID = VELOCITY_OVER_FORCE
$NAME = Velocity / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITY_OVER_FORCE

255
$ID = TRANSVERSE_SHEAR_STRESS
$NAME = Transverse shear stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[2]
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

256
$ID = TRANSVERSE_SHEAR_STRAIN
$NAME = Transverse shear strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[2]
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

257
$ID = TRANSMISSIBILITY
$NAME = Transmissibility
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

258
$ID = TRANSLATIONAL_VELOCITY
$NAME = Translational velocity vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = SPEED
$PARENT = AERODYNAMICS_STEADY_STATE
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = RTM_SOL_SET
$PARENT = FLUID_SOLUTION
$PARENT = LOAD_ENFORCED_VELOCITY
$PARENT = LOAD_TRANSLATIONAL_VELOCITY
$PARENT = RESTRAINT_INITIAL_VELOCITY

259
$ID = TRANSLATIONAL_STIFFNESS
$NAME = Translational stiffness
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = EIGEN_VALUES[3]
$UNIT = TSTIFNES
$PARENT = LOAD_CONTACT_INTERFACE
$PARENT = SENSITIVITY
$PARENT = PROPERTY_SPRING_3D
$PARENT = PROPERTY_SPRING_BEAM_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

260
$ID = TRANSLATIONAL_ACCELERATION
$NAME = Translational acceleration vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = ACCELRTN
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = LOAD_ENFORCED_ACCELERATION
$PARENT = LOAD_TRANSLATIONAL_ACCELERATION
$PARENT = RESTRAINT_INITIAL_ACCELERATION

261
$ID = TRANSLATION
$NAME = 3D translation vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = LENGTH
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = SHAPE_OPTIMIZATION
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = LOAD_ENFORCED_DISPLACEMENT
$PARENT = RESTRAINT_INITIAL_DISPLACEMENT

262
$ID = TIME
$NAME = Time
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TIME
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

263
$ID = TIGHTENING_FORCE
$NAME = Tightening force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE
$PARENT = PROPERTY_CONSTRAINT_3D_TIGHTENING

264
$ID = THICKNESS
$NAME = 3D shell thickness
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = RTM_SOL_SET
$PARENT = STAMPING_SOLUTION_SET
$PARENT = PROPERTY_SHELL_3D
$PARENT = PROPERTY_SHELL_3D_COMPOSITE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$PARENT = PROPERTY_MEMBRANE_3D
$PARENT = PROPERTY_SHEAR_PANEL_3D
$PARENT = PROPERTY_RTM_SHELL
$PARENT = PROPERTY_TFA_SHELL
$PARENT = DEPOSITION_SOL_SET
$PARENT = PAINT_SOL_SET
$PARENT = PROPERTY_RTM_RUNNER
$PARENT = PROPERTY_RTM_SHELL_CPD

265
$ID = TEST_NUMBER
$NAME = Test Number
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE

266
$ID = TEMPERATURE
$NAME = Temperature
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TEMPRTRE
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = ENVIRONMENT
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = RTM_SOL_SET
$PARENT = FLUID_SOLUTION
$PARENT = LOAD_TEMPERATURE_FIELD
$PARENT = LOAD_CONVECTION
$PARENT = LOAD_RADIATION
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_WALL
$PARENT = BOUNDARY_CONDITION_MOVING_BELT
$PARENT = RESTRAINT_TEMPERATURE
$PARENT = RESTRAINT_INITIAL_TEMPERATURE
$PARENT = SPRAY_SOL_SET
$PARENT = DEPOSITION_SOL_SET
$PARENT = PAINT_SOL_SET

267
$ID = SURFACIC_MASS
$NAME = Surfacic mass
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SURFACICMASS
$PARENT = MASS_SURFACIC_MASS

268
$ID = SURFACIC_FORCE
$NAME = Surfacic force vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = LOAD_SURFACIC_FORCE

269
$ID = STRUCTURAL_DAMPING
$NAME = Structural damping
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SENSITIVITY
$PARENT = MATERIAL_ISOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ANISOTROPIC
$PARENT = MATERIAL_ANISOTROPIC_2D
$PARENT = PROPERTY_SPRING_3D
$PARENT = PROPERTY_SPRING_BEAM_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

270
$ID = STRESS_VON_MISES
$NAME = Von Mises stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = DURABILITY_SOLUTION
$PARENT = SHAPE_OPTIMIZATION
$PARENT = MECHANICAL_CRASH_SOLUTION

271
$ID = STRESS
$NAME = Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = DURABILITY_SOLUTION
$PARENT = SHAPE_OPTIMIZATION
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = STAMPING_SOLUTION_SET

272
$ID = STRAIN_VON_MISES
$NAME = Von Mises strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = DURABILITY_SOLUTION
$PARENT = SHAPE_OPTIMIZATION
$PARENT = MECHANICAL_CRASH_SOLUTION

273
$ID = STRAIN
$NAME = Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = DURABILITY_SOLUTION
$PARENT = SHAPE_OPTIMIZATION
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = STAMPING_SOLUTION_SET

274
$ID = SHEAR_CENTER
$NAME = Shear center
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[2]
$UNIT = LENGTH
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_VARIABLE

275
$ID = SAFETY_FACTOR
$NAME = Safety factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

276
$ID = RPM
$NAME = Rate per minute
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = RPM
$PARENT = LOAD_VECTORS
$PARENT = DATA_SOURCE
$PARENT = LOAD_FUNCTION

277
$ID = ROTATIONAL_STIFFNESS
$NAME = Rotational stiffness
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = EIGEN_VALUES[3]
$UNIT = RSTIFNES
$PARENT = PROPERTY_SPRING_3D
$PARENT = PROPERTY_SPRING_BEAM_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

278
$ID = ROTATION
$NAME = 3D rotation vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = ANGLE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = LOAD_ENFORCED_DISPLACEMENT
$PARENT = RESTRAINT_INITIAL_DISPLACEMENT

279
$ID = REVERSE
$NAME = Reverse
$DTYPE = CHARACTERISTIC
$VTYPE = CHARACTER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = AXIS_CYLINDRICAL_3D_NODE
$PARENT = AXIS_CYLINDRICAL_3D_COORDINATE
$PARENT = AXIS_SPHERICAL_3D_NODE
$PARENT = AXIS_SPHERICAL_3D_COORDINATE

280
$ID = REFINMENT_RATIO
$NAME = Current to refined element size ratio
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

281
$ID = PRESSURE_OVER_VELOCITY
$NAME = Pressure / velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_VELOCITY

282
$ID = PRESSURE_OVER_NORMAL_VELOCITY
$NAME = Pressure / normal velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_NORMAL_VELOCITY

283
$ID = PRESSURE_OVER_FORCE
$NAME = Pressure / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_FORCE

284
$ID = PRESSURE_OVER_DISPLACEMENT
$NAME = Pressure / displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_DISPLACEMENT

285
$ID = PRESSURE_OVER_ACCELERATION
$NAME = Pressure / acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_ACCELERATION

286
$ID = PRESSURE
$NAME = Pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = RTM_SOL_SET
$PARENT = FLUID_SOLUTION
$PARENT = LOAD_PRESSURE
$PARENT = RTM_INLET_PRESSURE
$PARENT = RTM_OUTLET
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_OUTLET

287
$ID = POISSON_RATIO
$NAME = Poisson's ratio
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ISOTROPIC

288
$ID = POINT_MOMENT
$NAME = Point moment vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = MOMENT
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = LOAD_POINT_MOMENT

289
$ID = POINT_MASS
$NAME = Point mass
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MASS
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = MASS_POINT_MASS
$PARENT = SENSITIVITY
$PARENT = PROPERTY_MASS_3D

290
$ID = POINT_FORCE
$NAME = Point force vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = FORCE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = LOAD_POINT_FORCE

291
$ID = OVERLAP
$NAME = Overlap
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = PROPERTY_CONSTRAINT_3D_FITTING

292
$ID = ORIGIN_NODE
$NAME = Local origin node
$DTYPE = CHARACTERISTIC
$VTYPE = NODE
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = AXIS_RECTANGULAR_3D_NODE
$PARENT = AXIS_CYLINDRICAL_3D_NODE
$PARENT = AXIS_SPHERICAL_3D_NODE

293
$ID = ORIGIN_COORDINATE
$NAME = 3D coordinates of local origin
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = LENGTH
$PARENT = AXIS_RECTANGULAR_3D_COORDINATE
$PARENT = AXIS_CYLINDRICAL_3D_COORDINATE
$PARENT = AXIS_SPHERICAL_3D_COORDINATE
$PARENT = GLOBAL_AXIS

294
$ID = ORDER_NUMBER
$NAME = Order number
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_FUNCTION

295
$ID = OFFSET
$NAME = Offset vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3x2]
$UNIT = LENGTH
$PARENT = MASS_POINT_MASS
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

296
$ID = NORMAL_VELOCITY
$NAME = Normal velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SPEED

297
$ID = NORMAL_DISPLACEMENT
$NAME = Normal displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH

298
$ID = NORMAL_ACCELERATION
$NAME = Normal acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELRTN

299
$ID = MODAL_VELOCITY
$NAME = Modal velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FREQUENCY
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL

300
$ID = MODAL_TRANSFORM
$NAME = Modal transformation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

301
$ID = MODAL_STIFFNESS
$NAME = Modal stiffness
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

302
$ID = MODAL_MASS
$NAME = Modal mass
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INERTIAMOMENT
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

303
$ID = MODAL_DISPLACEMENT
$NAME = Modal displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = LOAD_FUNCTION

304
$ID = MODAL_ACCELERATION
$NAME = Modal acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = HERTZSQUARE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL

305
$ID = MAXIMUM_STRESS_AMPLITUDE
$NAME = Maximum stress amplitude
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = DURABILITY_SOLUTION

306
$ID = MAXIMUM_ABSOLUTE_STRESS
$NAME = Maximum absolute stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = DURABILITY_SOLUTION

307
$ID = MATERIAL
$NAME = Element material
$DTYPE = CHARACTERISTIC
$VTYPE = MATERIAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_BAR_3D
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_SHELL_3D
$PARENT = PROPERTY_SHELL_3D_COMPOSITE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS
$PARENT = PROPERTY_MEMBRANE_3D
$PARENT = PROPERTY_SHEAR_PANEL_3D
$PARENT = PROPERTY_DAMPER_3D_THERMAL
$PARENT = PROPERTY_SOLID_3D
$PARENT = PROPERTY_FLUID_3D
$PARENT = PROPERTY_ACOUSTIC_3D
$PARENT = PROPERTY_RTM_SHELL
$PARENT = PROPERTY_RTM_SOLID

308
$ID = MASS_MOMENT_OF_INERTIA
$NAME = Mass moment of inertia
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = INERTIAMOMENT
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = MASS_POINT_MASS

309
$ID = MASS_INERTIA
$NAME = Mass inertia
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = MASS
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = MASS_POINT_MASS
$PARENT = PROPERTY_SPRING_BEAM_3D

310
$ID = LOCAL_Z_NODE
$NAME = Node on local Z axis
$DTYPE = CHARACTERISTIC
$VTYPE = NODE
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = AXIS_RECTANGULAR_3D_NODE
$PARENT = AXIS_CYLINDRICAL_3D_NODE
$PARENT = AXIS_SPHERICAL_3D_NODE

311
$ID = LOCAL_Z_COORDINATE
$NAME = 3D coordinates of point on local Z axis
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = LENGTH
$PARENT = AXIS_RECTANGULAR_3D_COORDINATE
$PARENT = AXIS_CYLINDRICAL_3D_COORDINATE
$PARENT = AXIS_SPHERICAL_3D_COORDINATE
$PARENT = GLOBAL_AXIS

312
$ID = LOCAL_XZ_NODE
$NAME = Node on local XZ plane
$DTYPE = CHARACTERISTIC
$VTYPE = NODE
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = AXIS_RECTANGULAR_3D_NODE
$PARENT = AXIS_CYLINDRICAL_3D_NODE
$PARENT = AXIS_SPHERICAL_3D_NODE

313
$ID = LOCAL_XZ_COORDINATE
$NAME = 3D coordinates of point on local XZ plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = LENGTH
$PARENT = AXIS_RECTANGULAR_3D_COORDINATE
$PARENT = AXIS_CYLINDRICAL_3D_COORDINATE
$PARENT = AXIS_SPHERICAL_3D_COORDINATE
$PARENT = GLOBAL_AXIS

314
$ID = LINEIC_MASS
$NAME = Lineic mass
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LINEMASS
$PARENT = MASS_LINEIC_MASS

315
$ID = LINEIC_FORCE
$NAME = Lineic force vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = TSTIFNES
$PARENT = LOAD_LINEIC_FORCE

316
$ID = HEAT_FLUX
$NAME = Heat flux
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = HEAT_FLUX
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = LOAD_HEAT_SOURCE
$PARENT = LOAD_HEAT_FLUX
$PARENT = BOUNDARY_CONDITION_WALL
$PARENT = BOUNDARY_CONDITION_MOVING_BELT

317
$ID = FRICTION_RATIO
$NAME = Normal to tangential force ratio
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = LOAD_RIGID_WALL
$PARENT = LOAD_CONTACT_INTERFACE
$PARENT = RESTRAINT_CONTACT

318
$ID = FREQUENCY
$NAME = Frequency
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FREQUENCY
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR

319
$ID = FORCE_OVER_VELOCITY
$NAME = Force / velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_VELOCITY

320
$ID = FORCE_OVER_DISPLACEMENT
$NAME = Force / displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_DISPLACEMENT

321
$ID = FORCE_OVER_ACCELERATION
$NAME = Force / acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_ACCELERATION

322
$ID = FATIGUE_TASK_NUMBER
$NAME = Fatigue task number
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

323
$ID = FATIGUE_RECIPROCAL_LIFE
$NAME = Fatigue reciprocal life
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

324
$ID = FATIGUE_PROJECTOR_NORM
$NAME = Fatigue projector norm
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = DURABILITY_SOLUTION

325
$ID = FATIGUE_NORMALIZED_DAMAGE
$NAME = Fatigue normalized damage
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

326
$ID = FATIGUE_LIFE
$NAME = Fatigue life
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

327
$ID = FATIGUE_HOT_SPOT_NUMBER
$NAME = Fatigue hot spot number
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

328
$ID = FATIGUE_DAMAGE
$NAME = Fatigue damage
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

329
$ID = ESTIMATED_ERROR
$NAME = Estimated error
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ENERGY
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

330
$ID = ELIMINATION_RUN_NUMBER
$NAME = Elimination run number
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

331
$ID = ELASTIC_ENERGY_DENSITY
$NAME = Elastic energy density
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

332
$ID = ELASTIC_ENERGY
$NAME = Elastic energy
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ENERGY
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

333
$ID = DISPLACEMENT_OVER_FORCE
$NAME = Displacement / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENT_OVER_FORCE

334
$ID = DISPLACEMENT_OVER_ACCELERATION
$NAME = Displacement / acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_TIME

335
$ID = DESIGN_LOAD_FACTOR
$NAME = Design load factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

336
$ID = DENSITY
$NAME = Density
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DENSITY
$PARENT = FLUID_SOLUTION
$PARENT = MATERIAL_ISOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER
$PARENT = MATERIAL_HONEYCOMB
$PARENT = MATERIAL_ANISOTROPIC
$PARENT = MATERIAL_ANISOTROPIC_2D
$PARENT = MATERIAL_ANISOTROPIC_THERMAL
$PARENT = MATERIAL_FLUID
$PARENT = MATERIAL_ISOTROPIC_THERMAL

337
$ID = DEGREES_OF_FREEDOM
$NAME = 3D mechanical degrees of freedom
$DTYPE = CHARACTERISTIC
$VTYPE = SHORT
$MTYPE = BIT_ARRAY
$UNIT = NONE
$PARENT = ELEMENT_BEAM_3D_BAR2
$PARENT = ELEMENT_SPRING_3D
$PARENT = ELEMENT_DAMPER_3D
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_SPRING_3D
$PARENT = PROPERTY_CONSTRAINT_3D_AXIAL
$PARENT = PROPERTY_CONSTRAINT_3D_MEAN
$PARENT = PROPERTY_CONSTRAINT_3D_RIGID
$PARENT = PROPERTY_CONSTRAINT_3D_SPLINE
$PARENT = RESTRAINT_DISPLACEMENT
$PARENT = ELEMENT_SPRING_3D_VIRTUAL
$PARENT = ELEMENT_DAMPER_3D_VIRTUAL
$PARENT = ELEMENT_MASS_3D_VIRTUAL

338
$ID = CURVATURE
$NAME = Curvature
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[2]
$UNIT = CURVATURE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

339
$ID = CROSS_SECTIONAL_AREA
$NAME = Cross sectional area
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = AREA
$PARENT = PROPERTY_BAR_3D
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE

340
$ID = COEFFICIENT_OF_THERMAL_EXPANSION
$NAME = Coefficient of thermal expansion
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INVERSE_TEMPRTRE
$PARENT = MATERIAL_ISOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_HONEYCOMB
$PARENT = MATERIAL_ANISOTROPIC
$PARENT = MATERIAL_ANISOTROPIC_2D

341
$ID = CLEARANCE
$NAME = Clearance
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = LOAD_CLEARANCE
$PARENT = LOAD_CONTACT_INTERFACE
$PARENT = PROPERTY_CONTACT_3D
$PARENT = PROPERTY_CONSTRAINT_3D_CABLE
$PARENT = PROPERTY_CONSTRAINT_3D_CONTACT

342
$ID = BUCKLING_FACTOR
$NAME = Buckling factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR

343
$ID = ASSOCIATED_RESTRAINT
$NAME = Associated restraint
$DTYPE = CHARACTERISTIC
$VTYPE = RESTRAINT
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_ENFORCED_DISPLACEMENT

344
$ID = AREA_SHEAR_RATIO_XZ
$NAME = Effective shear area ratio in xz plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE

345
$ID = AREA_SHEAR_RATIO_XY
$NAME = Effective shear area ratio in xy plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE

346
$ID = AREA_MOMENT_OF_INERTIA
$NAME = Area moment of inertia
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = INERTIA
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE
$PARENT = PROPERTY_SPRING_BEAM_3D

347
$ID = ANGULAR_VELOCITY
$NAME = Angular velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGULAR_VELOCITY
$PARENT = LOAD_ROTATION_FORCE

348
$ID = ANGULAR_ACCELERATION
$NAME = Angular acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGACCELRTN
$PARENT = LOAD_ROTATION_FORCE

349
$ID = ACOUSTIC_POWER
$NAME = Acoustic power
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER

350
$ID = ACCELERATION_OVER_VELOCITY
$NAME = Acceleration / velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FREQUENCY

351
$ID = ACCELERATION_OVER_FORCE
$NAME = Acceleration / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATION_OVER_FORCE

352
$ID = ACCELERATION_OVER_DISPLACEMENT
$NAME = Acceleration / displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = HERTZSQUARE

353
$ID = 3D_COORDINATES
$NAME = 3D coordinates
$DTYPE = CHARACTERISTIC
$VTYPE = DOUBLE
$MTYPE = VECTOR[3]
$UNIT = LENGTH

354
$ID = DATA_CASE
$NAME = Data case
$DTYPE = CHARACTERISTIC
$VTYPE = CHARACTER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = LOAD_VECTORS
$PARENT = DATA_SOURCE
$PARENT = LOAD_FUNCTION
$PARENT = LOAD_VECTOR

355
$ID = PID
$NAME = Primary ID
$DTYPE = CHARACTERISTIC
$VTYPE = CHARACTER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SINGULAR_VALUE
$PARENT = SENSITIVITY

356
$ID = SID
$NAME = Secondary ID
$DTYPE = CHARACTERISTIC
$VTYPE = CHARACTER
$MTYPE = SCALAR
$UNIT = NONE

357
$ID = PID_DOF
$NAME = DOF of the primary ID
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SENSOR

358
$ID = SID_DOF
$NAME = DOF of the secondary ID
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE

359
$ID = TRANSLATION_NORM
$NAME = Translation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = SENSOR

360
$ID = ROTATION_NORM
$NAME = Rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGLE

361
$ID = POINT_FORCE_NORM
$NAME = Point force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE

362
$ID = POINT_MOMENT_NORM
$NAME = Point moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT

363
$ID = LINEIC_FORCE_NORM
$NAME = Lineic force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TSTIFNES

364
$ID = SURFACIC_FORCE_NORM
$NAME = Surfacic force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE

365
$ID = VOLUMIC_FORCE_NORM
$NAME = Volumic force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLFORCE

366
$ID = TRANSLATIONAL_VELOCITY_NORM
$NAME = Translational velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SPEED

367
$ID = TRANSLATIONAL_ACCELERATION_NORM
$NAME = Translational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELRTN

368
$ID = ROTATIONAL_VELOCITY
$NAME = Rotational velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = ANGULAR_VELOCITY
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = RESTRAINT_INITIAL_VELOCITY

369
$ID = ROTATIONAL_ACCELERATION
$NAME = Rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = ANGACCELRTN
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = RESTRAINT_INITIAL_ACCELERATION

370
$ID = ANGLE
$NAME = Angle
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGLE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS

371
$ID = EULER_PARAMETER
$NAME = Euler parameter
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

372
$ID = EULER_PARAMETER_VELOCITY
$NAME = Euler parameter velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

373
$ID = EULER_PARAMETER_ACCELERATION
$NAME = Euler parameter acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

374
$ID = MAXIMUM_FREQUENCY
$NAME = Maximum frequency
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FREQUENCY

375
$ID = MODE_TYPE
$NAME = Mode type
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE

376
$ID = POTENTIAL_ENERGY
$NAME = Potential energy
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ENERGY

377
$ID = TOTAL_ENERGY
$NAME = Total energy
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ENERGY
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

378
$ID = TRANSFORMATION_3D
$NAME = 3D transformation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR[1x12]
$UNIT = NONE
$PARENT = MESH
$PARENT = ELEMENTS
$PARENT = PROPERTY_CONSTRAINT_3D_PERIODIC

379
$ID = SV_SINGULAR_VALUE
$NAME = Singular value
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SINGULAR_VALUE

380
$ID = SV_RANK
$NAME = Rank
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SINGULAR_VALUE

381
$ID = SV_CONDITION_NUMBER
$NAME = Condition number
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SINGULAR_VALUE

382
$ID = SV_DEPENDENCY_INDICATOR
$NAME = Depedency indicator
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SINGULAR_VALUE

383
$ID = MEAN_QUADRATIC_VELOCITY
$NAME = Mean quadratic velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VELOCITY
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

384
$ID = MEAN_QUADRATIC_PRESSURE
$NAME = Mean quadratic pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_PRESSURE
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

385
$ID = RADIATION_EFFICIENCY
$NAME = Radiation efficiency
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

386
$ID = INPUT_POWER
$NAME = Input power
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER

387
$ID = ADMITTANCE
$NAME = Admittance
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITY_OVER_PRESSURE

388
$ID = IMPEDANCE
$NAME = Impedance
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_NORMAL_VELOCITY

389
$ID = PRESSURE_JUMP
$NAME = Pressure jump
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE

390
$ID = PRESSURE_GRADIENT
$NAME = Pressure gradient
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_DISPLACEMENT

391
$ID = PRESSURE_GRADIENT_JUMP
$NAME = Pressure gradient jump
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_DISPLACEMENT

392
$ID = CONVECTION
$NAME = Convection coefficient
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_CONVECTION
$PARENT = MATERIAL_ISOTROPIC_THERMAL

393
$ID = THERMAL_CONDUCTIVITY
$NAME = Thermal conductivity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = THERMALCONDUCTIVITY
$PARENT = MATERIAL_ISOTROPIC
$PARENT = MATERIAL_FLUID
$PARENT = MATERIAL_ISOTROPIC_THERMAL

394
$ID = SPECIFIC_HEAT
$NAME = Specific heat
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = HEATCAPACITY
$PARENT = MATERIAL_ISOTROPIC
$PARENT = MATERIAL_ANISOTROPIC_THERMAL
$PARENT = MATERIAL_FLUID
$PARENT = MATERIAL_ISOTROPIC_THERMAL

395
$ID = EMISSIVITY
$NAME = Emissivity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_RADIATION

396
$ID = YIELD_STRENGTH_X
$NAME = Yield strength in x direction
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ISOTROPIC

397
$ID = HARDENING_SLOPE_X
$NAME = Hardening slope in x direction
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ISOTROPIC

398
$ID = EQUIVALENT_PLASTIC_STRAIN
$NAME = Equivalent plastic strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

399
$ID = CONTACT_TYPE
$NAME = Contact type
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = RESTRAINT_CONTACT

400
$ID = FRICTION_TYPE
$NAME = Friction type
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = RESTRAINT_CONTACT

401
$ID = ELEMENT_QUALITY_CRITERIA
$NAME = Element quality criteria
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

402
$ID = ACOUSTIC_MONOPOLE_AMPLITUDE
$NAME = Acoustic monopole amplitude
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACOUSTIC_MONOPOLE_AMPLITUDE

403
$ID = ACOUSTIC_DIPOLE_AMPLITUDE
$NAME = Acoustic dipole amplitude
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = ACOUSTIC_DIPOLE_AMPLITUDE

404
$ID = ACOUSTIC_QUADRUPOLE_AMPLITUDE
$NAME = Acoustic quadrupole amplitude
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = ACOUSTIC_QUADRUPOLE_AMPLITUDE

405
$ID = DISPLACEMENT_OVER_VOLUME_VELOCITY
$NAME = Displacement / volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENT_OVER_VOLUME_VELOCITY

406
$ID = VELOCITY_OVER_VOLUME_VELOCITY
$NAME = Velocity / volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITY_OVER_VOLUME_VELOCITY

407
$ID = ACCELERATION_OVER_VOLUME_VELOCITY
$NAME = Acceleration / volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATION_OVER_VOLUME_VELOCITY

408
$ID = FORCE_OVER_VOLUME_VELOCITY
$NAME = Force / volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_VOLUME_VELOCITY

409
$ID = PRESSURE_OVER_VOLUME_VELOCITY
$NAME = Pressure / volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_VOLUME_VELOCITY

410
$ID = DISPLACEMENT_OVER_VOLUME_ACCELERATION
$NAME = Displacement / volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENT_OVER_VOLUME_ACCELERATION

411
$ID = VELOCITY_OVER_VOLUME_ACCELERATION
$NAME = Velocity / volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITY_OVER_VOLUME_ACCELERATION

412
$ID = ACCELERATION_OVER_VOLUME_ACCELERATION
$NAME = Acceleration / volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATION_OVER_VOLUME_ACCELERATION

413
$ID = FORCE_OVER_VOLUME_ACCELERATION
$NAME = Force / volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_VOLUME_ACCELERATION

414
$ID = PRESSURE_OVER_VOLUME_ACCELERATION
$NAME = Pressure / volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_VOLUME_ACCELERATION

415
$ID = DISPLACEMENT_OVER_VELOCITY
$NAME = Displacement / velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TIME

416
$ID = DISPLACEMENT_OVER_PRESSURE
$NAME = Displacement / pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENT_OVER_PRESSURE

417
$ID = VELOCITY_OVER_PRESSURE
$NAME = Velocity / pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITY_OVER_PRESSURE

418
$ID = ACCELERATION_OVER_PRESSURE
$NAME = Acceleration / pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATION_OVER_PRESSURE

419
$ID = FORCE_OVER_PRESSURE
$NAME = Force / pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_PRESSURE

420
$ID = VOLUME_VELOCITY
$NAME = Volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY

421
$ID = VOLUME_ACCELERATION
$NAME = Volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION

422
$ID = FORCE_SQUARED
$NAME = Power force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_FORCE

423
$ID = MOMENT_SQUARED
$NAME = Power moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_MOMENT

424
$ID = DISPLACEMENT_SQUARED
$NAME = Power displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = AREA

425
$ID = ROTATION_SQUARED
$NAME = Power rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_ROTATION

426
$ID = VELOCITY_SQUARED
$NAME = Power velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VELOCITY

427
$ID = PULSATION_SQUARED
$NAME = Power pulsation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_PULSATION

428
$ID = ACCELERATION_SQUARED
$NAME = Power acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_ACCELERATION

429
$ID = ROTATIONAL_ACCELERATION_SQUARED
$NAME = Power rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_ROTATIONAL_ACCELERATION

430
$ID = MODAL_DISPLACEMENT_SQUARED
$NAME = Power modal displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL

431
$ID = PRESSURE_SQUARED
$NAME = Power pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_PRESSURE
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

432
$ID = VOLUME_VELOCITY_SQUARED
$NAME = Power volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VOLUME_VELOCITY
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

433
$ID = VOLUME_ACCELERATION_SQUARED
$NAME = Power volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VOLUME_ACCELERATION
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

434
$ID = STRESS_SQUARED
$NAME = Power stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_PRESSURE

435
$ID = YOUNG_MODULUS_X
$NAME = Longitudinal Young modulus
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

436
$ID = YOUNG_MODULUS_Y
$NAME = Transverse Young modulus
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

437
$ID = YOUNG_MODULUS_Z
$NAME = Normal Young modulus
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_HONEYCOMB

438
$ID = POISSON_RATIO_XY
$NAME = Poisson's ratio in xy plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

439
$ID = POISSON_RATIO_XZ
$NAME = Poisson's ratio in xz plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ORTHOTROPIC_3D

440
$ID = POISSON_RATIO_YZ
$NAME = Poisson's ratio in yz plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ORTHOTROPIC_3D

441
$ID = SHEAR_MODULUS_XY
$NAME = Shear modulus in xy plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

442
$ID = SHEAR_MODULUS_XZ
$NAME = Shear modulus in xz plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_HONEYCOMB

443
$ID = SHEAR_MODULUS_YZ
$NAME = Shear modulus in yz plane
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER
$PARENT = MATERIAL_HONEYCOMB

444
$ID = COEFFICIENT_OF_THERMAL_EXPANSION_X
$NAME = Longitudinal thermal expansion
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INVERSE_TEMPRTRE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_FIBER

445
$ID = COEFFICIENT_OF_THERMAL_EXPANSION_Y
$NAME = Transverse thermal expansion
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INVERSE_TEMPRTRE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_FIBER

446
$ID = TENSILE_STRESS_LIMIT_X
$NAME = Longitudinal tensile stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

447
$ID = TENSILE_STRESS_LIMIT_Y
$NAME = Transverse tensile stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

448
$ID = COMPRESSIVE_STRESS_LIMIT_X
$NAME = Longitudinal compressive stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

449
$ID = COMPRESSIVE_STRESS_LIMIT_Y
$NAME = Transverse compressive stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

450
$ID = THERMAL_GLUING_TYPE
$NAME = Thermal gluing type
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_THERMAL_GLUING

451
$ID = GLUING_LOAD
$NAME = Thermal gluing load value
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_THERMAL_GLUING

452
$ID = KINETIC_ENERGY
$NAME = Kinetic energy
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ENERGY
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

453
$ID = KINETIC_ENERGY_DENSITY
$NAME = Kinetic energy density
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

454
$ID = TRANSLATIONAL_DAMPING
$NAME = Translational damping
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = EIGEN_VALUES[3]
$UNIT = FORCE_OVER_VELOCITY
$PARENT = PROPERTY_DAMPER_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

455
$ID = ROTATIONAL_DAMPING
$NAME = Rotational damping
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = EIGEN_VALUES[3]
$UNIT = MOMENT_OVER_PULSATION
$PARENT = PROPERTY_DAMPER_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

456
$ID = LOCAL_GLOBAL_INDICATOR
$NAME = Local or global mode indicator
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_MODAL

457
$ID = PLY_ID
$NAME = Ply ID
$DTYPE = CHARACTERISTIC
$VTYPE = SHORT
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS

458
$ID = MATERIAL_ANGLE
$NAME = Material angle
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGLE
$PARENT = ELEMENT_SHELL_3D_TRIA3
$PARENT = ELEMENT_SHELL_3D_QUAD4
$PARENT = ELEMENT_SHELL_3D_TRIA6
$PARENT = ELEMENT_SHELL_3D_QUAD8
$PARENT = ELEMENT_MEMBRANE_3D_TRIA3
$PARENT = ELEMENT_MEMBRANE_3D_QUAD4
$PARENT = ELEMENT_MEMBRANE_3D_TRIA6
$PARENT = ELEMENT_MEMBRANE_3D_QUAD8
$PARENT = PROPERTY_SHELL_3D
$PARENT = PROPERTY_SHELL_3D_COMPOSITE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS

459
$ID = NB_LAMINATES
$NAME = Number of laminates
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE
$PARENT = PROPERTY_SHELL_3D_COMPOSITE_HOMOGENEOUS

460
$ID = ACCELERATION_OVER_MOMENT
$NAME = Acceleration / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATION_OVER_MOMENT

461
$ID = VELOCITY_OVER_MOMENT
$NAME = Velocity / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITY_OVER_MOMENT

462
$ID = DISPLACEMENT_OVER_MOMENT
$NAME = Displacement / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENT_OVER_MOMENT

463
$ID = ROTATION_OVER_MOMENT
$NAME = Rotation / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ROTATION_OVER_MOMENT

464
$ID = PULSATION_OVER_MOMENT
$NAME = Pulsation / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PULSATION_OVER_MOMENT

465
$ID = ROTATIONAL_ACCELERATION_OVER_MOMENT
$NAME = Rotational acceleration / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ROTATIONAL_ACCELERATION_OVER_MOMENT

466
$ID = ROTATION_OVER_FORCE
$NAME = Rotation / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ROTATION_OVER_FORCE

467
$ID = PULSATION_OVER_FORCE
$NAME = Pulsation / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PULSATION_OVER_FORCE

468
$ID = PRESSURE_OVER_MOMENT
$NAME = Pressure / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_MOMENT

469
$ID = MOMENT_OVER_DISPLACEMENT
$NAME = Moment / displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_DISPLACEMENT

470
$ID = FORCE_OVER_ROTATION
$NAME = Force / rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_ROTATION

471
$ID = MOMENT_OVER_ROTATION
$NAME = Moment / rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_ROTATION

472
$ID = PRESSURE_OVER_ROTATION
$NAME = Pressure / rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_ROTATION

473
$ID = MOMENT_OVER_VELOCITY
$NAME = Moment / velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_VELOCITY

474
$ID = FORCE_OVER_PULSATION
$NAME = Force / pulsation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_PULSATION

475
$ID = MOMENT_OVER_PULSATION
$NAME = Moment / pulsation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_PULSATION

476
$ID = PRESSURE_OVER_PULSATION
$NAME = Pressure / pulsation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_PULSATION

477
$ID = MOMENT_OVER_ACCELERATION
$NAME = Moment / acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_ACCELERATION

478
$ID = FORCE_OVER_ROTATIONAL_ACCELERATION
$NAME = Force / rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_ROTATIONAL_ACCELERATION

479
$ID = MOMENT_OVER_ROTATIONAL_ACCELERATION
$NAME = Moment / rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_ROTATIONAL_ACCELERATION

480
$ID = PRESSURE_OVER_ROTATIONAL_ACCELERATION
$NAME = Pressure / rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_ROTATIONAL_ACCELERATION

481
$ID = VOLUME_ACCELERATION_OVER_FORCE
$NAME = Volume acceleration / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_FORCE

482
$ID = VOLUME_ACCELERATION_OVER_PRESSURE
$NAME = Volume acceleration / pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_PRESSURE

483
$ID = VOLUME_ACCELERATION_OVER_MOMENT
$NAME = Volume acceleration / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_MOMENT

484
$ID = VOLUME_ACCELERATION_OVER_DISPLACEMENT
$NAME = Volume acceleration / displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_DISPLACEMENT

485
$ID = VOLUME_ACCELERATION_OVER_ROTATION
$NAME = Volume acceleration / rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_ROTATION

486
$ID = VOLUME_ACCELERATION_OVER_VELOCITY
$NAME = Volume acceleration / velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_VELOCITY

487
$ID = VOLUME_ACCELERATION_OVER_PULSATION
$NAME = Volume acceleration / pulsation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_PULSATION

488
$ID = VOLUME_ACCELERATION_OVER_ACCELERATION
$NAME = Volume acceleration / acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_ACCELERATION

489
$ID = VOLUME_ACCELERATION_OVER_ROTATIONAL_ACCELERATION
$NAME = Volume acceleration / rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_ACCELERATION_OVER_ROTATIONAL_ACCELERATION

490
$ID = VOLUME_VELOCITY_OVER_FORCE
$NAME = Volume velocity / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_FORCE

491
$ID = VOLUME_VELOCITY_OVER_PRESSURE
$NAME = Volume velocity / pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_PRESSURE

492
$ID = VOLUME_VELOCITY_OVER_MOMENT
$NAME = Volume velocity / moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_MOMENT

493
$ID = VOLUME_VELOCITY_OVER_DISPLACEMENT
$NAME = Volume velocity / displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_DISPLACEMENT

494
$ID = VOLUME_VELOCITY_OVER_ROTATION
$NAME = Volume velocity / rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_ROTATION

495
$ID = VOLUME_VELOCITY_OVER_VELOCITY
$NAME = Volume velocity / velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_VELOCITY

496
$ID = VOLUME_VELOCITY_OVER_PULSATION
$NAME = Volume velocity / pulsation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_PULSATION

497
$ID = VOLUME_VELOCITY_OVER_ACCELERATION
$NAME = Volume velocity / acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_ACCELERATION

498
$ID = VOLUME_VELOCITY_OVER_ROTATIONAL_ACCELERATION
$NAME = Volume velocity / rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOLUME_VELOCITY_OVER_ROTATIONAL_ACCELERATION

499
$ID = POTENTIAL_FLOW
$NAME = Potential flow
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITY_POTENTIAL
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

500
$ID = PRESSURE_TIME_DERIVATIVE
$NAME = Pressure time derivative
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_TIME
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

501
$ID = RIGID_BODY_INDICATOR
$NAME = Rigid-body mode indicator
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

502
$ID = MODE_ID
$NAME = Mode identity
$DTYPE = CHARACTERISTIC
$VTYPE = CHARACTER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE
$PARENT = LOAD_FUNCTION

503
$ID = BIAXIALITY_FACTOR
$NAME = Biaxiality factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

504
$ID = PHASE_ANGLE
$NAME = Phase angle
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGLE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = DURABILITY_SOLUTION
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

505
$ID = PHASE_ANGLE_SPREAD
$NAME = Phase angle spread
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGLE
$PARENT = DURABILITY_SOLUTION

506
$ID = FAILURE_ANGLE
$NAME = Failure angle
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGLE
$PARENT = DURABILITY_SOLUTION

507
$ID = LOAD_CONDITION_RATIO
$NAME = Load condition ratio
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

508
$ID = FATIGUE_LIFE_TIME
$NAME = Fatigue life time
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TIME
$PARENT = DURABILITY_SOLUTION

509
$ID = FATIGUE_LIFE_MILEAGE
$NAME = Fatigue life mileage
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = DURABILITY_SOLUTION

510
$ID = SPOT_WELD_DIAMETER
$NAME = Spot weld diameter
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = DURABILITY_SOLUTION

511
$ID = SPOT_WELD_ANGLE
$NAME = Spot weld angle
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ANGLE
$PARENT = DURABILITY_SOLUTION

512
$ID = SPOT_WELD_RATIO
$NAME = Spot weld ratio
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

513
$ID = SHAPE_OPTIMIZATION_CONTROL
$NAME = Shape optimization control
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SHAPE_OPTIMIZATION

514
$ID = SOUND_SPEED
$NAME = Speed of sound
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SPEED
$PARENT = MATERIAL_FLUID

515
$ID = ROD_AREA_RATIO
$NAME = Rod area ratio
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_SHEAR_PANEL_3D

516
$ID = FRICTION_FORCE
$NAME = Friction force vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = FORCE
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

517
$ID = REVERSE_CONNECTIVITY
$NAME = Reverse connectivity
$DTYPE = CHARACTERISTIC
$VTYPE = CHARACTER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID_TRANSLATION

518
$ID = HEAT_FLUX_VECTOR
$NAME = Heat flux vector
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = HEAT_FLUX
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

519
$ID = REACTION_FLUX
$NAME = Reaction flux
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = HEAT_FLUX
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

520
$ID = CONTACT_OPENING
$NAME = Contact opening
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

521
$ID = CONTACT_SHEAR_TRACTION
$NAME = Shear traction magnitude
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

522
$ID = CONTACT_TANGENTIAL_DISPLACEMENT
$NAME = Contact tangential displacement magnitude
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR

523
$ID = FLOW_VELOCITY
$NAME = Flow velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SPEED
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_OUTLET

524
$ID = STATIC_FLOW_RESISTIVITY
$NAME = Static flow resistivity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FLOW_RESISTIVITY
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

525
$ID = DYNAMIC_FLOW_RESISTIVITY
$NAME = Dynamic flow resistivity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FLOW_RESISTIVITY
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

526
$ID = PSD
$NAME = Power spectral density
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

527
$ID = PSD_PRESSURE
$NAME = PSD pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY_PRESSURE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

528
$ID = PSD_DISPLACEMENT
$NAME = PSD displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY_DISPLACEMENT
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

529
$ID = PSD_VELOCITY
$NAME = PSD velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

530
$ID = PSD_ACCELERATION
$NAME = PSD acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

531
$ID = PSD_TRANSLATION
$NAME = PSD translation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_DISPLACEMENT
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

532
$ID = PSD_TRANSLATIONAL_VELOCITY
$NAME = PSD translational velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

533
$ID = PSD_TRANSLATIONAL_ACCELERATION
$NAME = PSD translational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

534
$ID = PSD_ROTATION
$NAME = PSD rotation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_ROTATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

535
$ID = PSD_ROTATIONAL_VELOCITY
$NAME = PSD rotational velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_ROTATIONAL_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

536
$ID = PSD_ROTATIONAL_ACCELERATION
$NAME = PSD rotational acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_ROTATIONAL_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

537
$ID = PSD_STRESS
$NAME = PSD stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_PRESSURE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

538
$ID = PSD_STRAIN
$NAME = PSD strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = TIME
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

539
$ID = PSD_FORCE
$NAME = PSD force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_FORCE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

540
$ID = PSD_MOMENT
$NAME = PSD moment
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = POWER_SPECTRAL_DENSITY_MOMENT
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

541
$ID = PSD_VOLUME_VELOCITY
$NAME = PSD volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VOLUME_VELOCITY_OVER_FREQUENCY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

542
$ID = PSD_VOLUME_ACCELERATION
$NAME = PSD volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VOLUME_ACCELERATION_OVER_FREQUENCY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

543
$ID = PSD_DISPLACEMENT_BY_VELOCITY
$NAME = PSD displacement x velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = AREA
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

544
$ID = PSD_DISPLACEMENT_BY_ACCELERATION
$NAME = PSD displacement x acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

545
$ID = PSD_VELOCITY_BY_ACCELERATION
$NAME = PSD velocity x acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

546
$ID = PSD_DISPLACEMENT_BY_FORCE
$NAME = PSD displacement x force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXFORCE_OVER_FREQUENCY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

547
$ID = PSD_DISPLACEMENT_BY_VOLUME_VELOCITY
$NAME = PSD displacement x volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INERTIA
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

548
$ID = PSD_DISPLACEMENT_BY_VOLUME_ACCELERATION
$NAME = PSD displacement x volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

549
$ID = PSD_DISPLACEMENT_BY_PRESSURE
$NAME = PSD displacement x pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

550
$ID = PSD_VELOCITY_BY_FORCE
$NAME = PSD velocity x force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

551
$ID = PSD_VELOCITY_BY_VOLUME_VELOCITY
$NAME = PSD velocity x volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

552
$ID = PSD_VELOCITY_BY_VOLUME_ACCELERATION
$NAME = PSD velocity x volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

553
$ID = PSD_VELOCITY_BY_PRESSURE
$NAME = PSD velocity x pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_DISPLACEMENT
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

554
$ID = PSD_ACCELERATION_BY_FORCE
$NAME = PSD acceleration x force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXFORCE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

555
$ID = PSD_ACCELERATION_BY_VOLUME_VELOCITY
$NAME = PSD acceleration x volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

556
$ID = PSD_ACCELERATION_BY_VOLUME_ACCELERATION
$NAME = PSD acceleration x volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXVOLUME_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

557
$ID = PSD_ACCELERATION_BY_PRESSURE
$NAME = PSD acceleration x pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXPRESSURE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

558
$ID = PSD_PRESSURE_BY_FORCE
$NAME = PSD pressure x force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXFORCE_OVER_FREQUENCY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

559
$ID = PSD_PRESSURE_BY_VOLUME_VELOCITY
$NAME = PSD pressure x volume velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

560
$ID = PSD_PRESSURE_BY_VOLUME_ACCELERATION
$NAME = PSD pressure x volume acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXVOLUME_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

561
$ID = PSD_VELOCITY_BY_DISPLACEMENT
$NAME = PSD velocity x displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = AREA
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

562
$ID = PSD_ACCELERATION_BY_DISPLACEMENT
$NAME = PSD acceleration x displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

563
$ID = PSD_ACCELERATION_BY_VELOCITY
$NAME = PSD acceleration x velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

564
$ID = PSD_FORCE_BY_DISPLACEMENT
$NAME = PSD force x displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXFORCE_OVER_FREQUENCY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

565
$ID = PSD_VOLUME_VELOCITY_BY_DISPLACEMENT
$NAME = PSD volume velocity x displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INERTIA
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

566
$ID = PSD_VOLUME_ACCELERATION_BY_DISPLACEMENT
$NAME = PSD volume acceleration x displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

567
$ID = PSD_PRESSURE_BY_DISPLACEMENT
$NAME = PSD pressure x displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

568
$ID = PSD_FORCE_BY_VELOCITY
$NAME = PSD force x velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

569
$ID = PSD_VOLUME_VELOCITY_BY_VELOCITY
$NAME = PSD volume velocity x velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_VELOCITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

570
$ID = PSD_VOLUME_ACCELERATION_BY_VELOCITY
$NAME = PSD volume acceleration x velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

571
$ID = PSD_PRESSURE_BY_VELOCITY
$NAME = PSD pressure x velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = FORCE_OVER_DISPLACEMENT
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

572
$ID = PSD_FORCE_BY_ACCELERATION
$NAME = PSD force x acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXFORCE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

573
$ID = PSD_VOLUME_VELOCITY_BY_ACCELERATION
$NAME = PSD volume velocity x acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

574
$ID = PSD_VOLUME_ACCELERATION_BY_ACCELERATION
$NAME = PSD volume acceleration x acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXVOLUME_ACCELERATION
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

575
$ID = PSD_PRESSURE_BY_ACCELERATION
$NAME = PSD pressure x acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXPRESSURE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

576
$ID = PSD_FORCE_BY_PRESSURE
$NAME = PSD force x pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXFORCE_OVER_FREQUENCY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

577
$ID = PSD_VOLUME_VELOCITY_BY_PRESSURE
$NAME = PSD volume velocity x pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

578
$ID = PSD_VOLUME_ACCELERATION_BY_PRESSURE
$NAME = PSD volume acceleration x pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXFORCE
$PARENT = DATA_SOURCE
$PARENT = CROSSPOWER

579
$ID = PRESSURE_CONTRIBUTION
$NAME = Pressure contribution
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = LOAD_FUNCTIONS
$PARENT = DATA_SOURCE

580
$ID = PRESSURE_CONTRIBUTION_OVER_AREA
$NAME = Pressure contribution over area
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE_OVER_AREA
$PARENT = DATA_SOURCE

581
$ID = REFERENCE_ID
$NAME = Reference ID
$DTYPE = CHARACTERISTIC
$VTYPE = CHARACTER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_FUNCTION

582
$ID = DISPLACEMENT_BY_REF_VELOCITY
$NAME = Displacement x velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVELOCITY
$PARENT = CROSSPOWER

583
$ID = DISPLACEMENT_BY_REF_ACCELERATION
$NAME = Displacement x acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXACCELERATION
$PARENT = CROSSPOWER

584
$ID = DISPLACEMENT_BY_REF_FORCE
$NAME = Displacement x force (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT
$PARENT = CROSSPOWER

585
$ID = DISPLACEMENT_BY_REF_VOLUME_VELOCITY
$NAME = Displacement x volume velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_VELOCITY
$PARENT = CROSSPOWER

586
$ID = DISPLACEMENT_BY_REF_VOLUME_ACCELERATION
$NAME = Displacement x volume acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXVOLUME_ACCELERATION
$PARENT = CROSSPOWER

587
$ID = DISPLACEMENT_BY_REF_PRESSURE
$NAME = Displacement x pressure (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENTXPRESSURE
$PARENT = CROSSPOWER

588
$ID = VELOCITY_BY_REF_DISPLACEMENT
$NAME = Velocity x displacement (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXDISPLACEMENT
$PARENT = CROSSPOWER

589
$ID = VELOCITY_BY_REF_ACCELERATION
$NAME = Velocity x acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXACCELERATION
$PARENT = CROSSPOWER

590
$ID = VELOCITY_BY_REF_FORCE
$NAME = Velocity x force (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXFORCE
$PARENT = CROSSPOWER

591
$ID = VELOCITY_BY_REF_VOLUME_VELOCITY
$NAME = Velocity x volume velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXVOLUME_VELOCITY
$PARENT = CROSSPOWER

592
$ID = VELOCITY_BY_REF_VOLUME_ACCELERATION
$NAME = Velocity x volume acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXVOLUME_ACCELERATION
$PARENT = CROSSPOWER

593
$ID = VELOCITY_BY_REF_PRESSURE
$NAME = Velocity x pressure (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VELOCITYXPRESSURE
$PARENT = CROSSPOWER

594
$ID = ACCELERATION_BY_REF_DISPLACEMENT
$NAME = Acceleration x displacement (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATIONXDISPLACEMENT
$PARENT = CROSSPOWER

595
$ID = ACCELERATION_BY_REF_VELOCITY
$NAME = Acceleration x velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATIONXVELOCITY
$PARENT = CROSSPOWER

596
$ID = ACCELERATION_BY_REF_FORCE
$NAME = Acceleration x force (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATIONXFORCE
$PARENT = CROSSPOWER

597
$ID = ACCELERATION_BY_REF_VOLUME_VELOCITY
$NAME = Acceleration x volume velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATIONXVOLUME_VELOCITY
$PARENT = CROSSPOWER

598
$ID = ACCELERATION_BY_REF_VOLUME_ACCELERATION
$NAME = Acceleration x volume acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATIONXVOLUME_ACCELERATION
$PARENT = CROSSPOWER

599
$ID = ACCELERATION_BY_REF_PRESSURE
$NAME = Acceleration x pressure (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = ACCELERATIONXPRESSURE
$PARENT = CROSSPOWER

600
$ID = PRESSURE_BY_REF_DISPLACEMENT
$NAME = Pressure x displacement (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXDISPLACEMENT
$PARENT = CROSSPOWER

601
$ID = PRESSURE_BY_REF_VELOCITY
$NAME = Pressure x velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXVELOCITY
$PARENT = CROSSPOWER

602
$ID = PRESSURE_BY_REF_ACCELERATION
$NAME = Pressure x acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXACCELERATION
$PARENT = CROSSPOWER

603
$ID = PRESSURE_BY_REF_FORCE
$NAME = Pressure x force (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXFORCE
$PARENT = CROSSPOWER

604
$ID = PRESSURE_BY_REF_VOLUME_VELOCITY
$NAME = Pressure x volume velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXVOLUME_VELOCITY
$PARENT = CROSSPOWER

605
$ID = PRESSURE_BY_REF_VOLUME_ACCELERATION
$NAME = Pressure x volume acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSUREXVOLUME_ACCELERATION
$PARENT = CROSSPOWER

606
$ID = FORCE_FLOW
$NAME = Force flow
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = TSTIFNES
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

607
$ID = MOMENT_FLOW
$NAME = Moment flow
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[2]
$UNIT = FORCE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

608
$ID = TOPOLOGY_OPTIMIZATION_CONTROL
$NAME = Topology optimization control
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SHAPE_OPTIMIZATION

609
$ID = TOPOLOGY_OPTIMIZATION_DENSITY
$NAME = Topology optimization element density
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SHAPE_OPTIMIZATION

610
$ID = ACOUSTIC_INTENSITY
$NAME = Acoustic intensity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = INTENSITY
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

611
$ID = WARPING_NODE_A
$NAME = Warping node A
$DTYPE = CHARACTERISTIC
$VTYPE = NODE
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = ELEMENT_BEAM_3D_BAR2
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_VARIABLE

612
$ID = WARPING_NODE_B
$NAME = Warping node B
$DTYPE = CHARACTERISTIC
$VTYPE = NODE
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = ELEMENT_BEAM_3D_BAR2
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_VARIABLE

613
$ID = SPRING_DAMPER_LOCATION
$NAME = Spring-damper location
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = ELEMENT_CONSTRAINT_3D_RIGID
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

614
$ID = SURFACE_OFFSET
$NAME = Surface offset
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = ELEMENT_SHELL_3D_TRIA3
$PARENT = ELEMENT_SHELL_3D_QUAD4
$PARENT = ELEMENT_SHELL_3D_TRIA6
$PARENT = ELEMENT_SHELL_3D_QUAD8
$PARENT = ELEMENT_MEMBRANE_3D_TRIA3
$PARENT = ELEMENT_MEMBRANE_3D_QUAD4
$PARENT = ELEMENT_MEMBRANE_3D_TRIA6
$PARENT = ELEMENT_MEMBRANE_3D_QUAD8
$PARENT = PROPERTY_SHELL_3D

615
$ID = CURVED_BEAM_CONNECTION_TYPE
$NAME = Connection type of curved beam
$DTYPE = CHARACTERISTIC
$VTYPE = SHORT
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = ELEMENT_BEAM_3D_BAR2_CURVED

616
$ID = DAMPING_MULTIPLIER
$NAME = Damping multiplier
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_DAMPER_3D_THERMAL

617
$ID = TORSIONAL_STIFFNESS_PARAMETER
$NAME = Torsional stiffness parameter
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INERTIA
$PARENT = PROPERTY_BEAM_3D
$PARENT = PROPERTY_BEAM_3D_CURVED
$PARENT = PROPERTY_BEAM_3D_VARIABLE

618
$ID = AXIS_TYPE
$NAME = Axis type
$DTYPE = CHARACTERISTIC
$VTYPE = SHORT
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_SHELL_3D
$PARENT = PROPERTY_MEMBRANE_3D
$PARENT = PROPERTY_SHEAR_PANEL_3D
$PARENT = PROPERTY_SOLID_3D

619
$ID = DAMAGE_LOCATION
$NAME = Damage location
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

620
$ID = STRESS_REDUCTION_FACTOR
$NAME = Stress reduction factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = DURABILITY_SOLUTION

621
$ID = SHEAR_MODULUS_MATRIX
$NAME = Shear modulus matrix
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[6]
$UNIT = PRESSURE
$PARENT = MATERIAL_ANISOTROPIC

622
$ID = THERMAL_CONDUCTIVITY_MATRIX
$NAME = Thermal conductivity matrix
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = THERMALCONDUCTIVITY
$PARENT = MATERIAL_ANISOTROPIC_THERMAL

623
$ID = WALL_TYPE
$NAME = Wall type
$DTYPE = CHARACTERISTIC
$VTYPE = SHORT
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_RIGID_WALL

624
$ID = DEFINITION_POINT
$NAME = Definition point
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = LENGTH
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION
$PARENT = LOAD_RIGID_WALL

625
$ID = SHEAR_MODULUS_MATRIX_2D
$NAME = Shear modulus matrix 2D
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = PRESSURE
$PARENT = MATERIAL_ANISOTROPIC_2D

626
$ID = TENSILE_STRAIN_LIMIT_X
$NAME = Longitudinal tensile strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ORTHOTROPIC

627
$ID = TENSILE_STRAIN_LIMIT_Y
$NAME = Transverse tensile strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ORTHOTROPIC

628
$ID = COMPRESSIVE_STRAIN_LIMIT_X
$NAME = Longitudinal compressive strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ORTHOTROPIC

629
$ID = COMPRESSIVE_STRAIN_LIMIT_Y
$NAME = Transverse compressive strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_ORTHOTROPIC

630
$ID = SHEAR_STRESS_LIMIT_XY
$NAME = Shear stress limit in plane XY
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER

631
$ID = SHEAR_STRESS_LIMIT_XZ
$NAME = Shear stress limit in plane XZ
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_HONEYCOMB

632
$ID = SHEAR_STRESS_LIMIT_YZ
$NAME = Shear stress limit in plane YZ
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ORTHOTROPIC_3D
$PARENT = MATERIAL_FIBER
$PARENT = MATERIAL_HONEYCOMB

633
$ID = TENSILE_STRESS_LIMIT
$NAME = Tensile stress limit
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ANISOTROPIC_2D

634
$ID = COMPRESSIVE_STRESS_LIMIT
$NAME = Compressive stress limit
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ANISOTROPIC_2D

635
$ID = SHEAR_STRESS_LIMIT
$NAME = Shear stress limit
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_ANISOTROPIC_2D

636
$ID = FILLING_TIME
$NAME = Filling time
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TIME
$PARENT = RTM_SOL_SET

637
$ID = FILLING_FACTOR
$NAME = Filling factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = RTM_SOL_SET

638
$ID = FLOW_RATE
$NAME = Flow rate
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = VOL_FLOW
$PARENT = RTM_INLET_FLOW_RATE
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_OUTLET

639
$ID = FIBER_CONTENT
$NAME = Fiber content
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = RTM_SOL_SET
$PARENT = PROPERTY_RTM_SHELL
$PARENT = PROPERTY_RTM_SOLID
$PARENT = PROPERTY_RTM_RUNNER
$PARENT = PROPERTY_RTM_SHELL_CPD

640
$ID = VISCOSITY
$NAME = Viscosity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DYNAMICVISCOSITY
$PARENT = RTM_SOL_SET
$PARENT = MATERIAL_RTM_RESIN
$PARENT = MATERIAL_ISOTROPIC_THERMAL

641
$ID = ISOTROPIC_PERMEABILITY
$NAME = Permeability
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = AREA
$PARENT = MATERIAL_RTM_RANDOM
$PARENT = MATERIAL_RTM_RUNNER
$PARENT = PROPERTY_RTM_RUNNER

642
$ID = THINNING
$NAME = Shell thinning
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

643
$ID = MASS_MOMENT_OVER_ACCELERATION
$NAME = Mass moment / acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = TENSOR[3]
$UNIT = MOMENT_OVER_ACCELERATION
$PARENT = MASS_POINT_MASS

644
$ID = TRANSLATIONAL_STIFFNESS_MATRIX
$NAME = Translational stiffness
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = TSTIFNES
$PARENT = PROPERTY_SPRING_3D
$PARENT = PROPERTY_SPRING_BEAM_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

645
$ID = ROTATIONAL_STIFFNESS_MATRIX
$NAME = Rotational stiffness
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = RSTIFNES
$PARENT = PROPERTY_SPRING_3D
$PARENT = PROPERTY_SPRING_BEAM_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

646
$ID = TRANSLATIONAL_DAMPING_MATRIX
$NAME = Translational damping
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = FORCE_OVER_VELOCITY
$PARENT = PROPERTY_DAMPER_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

647
$ID = ROTATIONAL_DAMPING_MATRIX
$NAME = Rotational damping
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = MOMENT_OVER_PULSATION
$PARENT = PROPERTY_DAMPER_3D
$PARENT = PROPERTY_CONSTRAINT_3D_SPRING_DAMPER

648
$ID = POSITIONS
$NAME = Positions
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[?]
$UNIT = NONE
$PARENT = PROPERTY_BEAM_3D_VARIABLE

649
$ID = NB_POSITIONS
$NAME = Number of positions
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_BEAM_3D_VARIABLE

650
$ID = FAILURE_CRITERION
$NAME = Failure criterion
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = AERODYNAMICS_STEADY_STATE
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

651
$ID = MODAL_SCALE_FACTOR
$NAME = Modal scale factor
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

652
$ID = POSTPROCESSING_CHARAC
$NAME = Post-Processing characteristic
$DTYPE = CHARACTERISTIC
$VTYPE = INVALID_VALUE
$UNIT = NONE
$PARENT = POSTPROCESSING

653
$ID = DIAMETER_RATIO
$NAME = Diameter ratio
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_CONSTRAINT_3D_SPLINE

654
$ID = SENSITIVITY_SLOPE
$NAME = Sensitivity slope
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = SENSITIVITY

655
$ID = STRAIN_RATE
$NAME = Strain rate
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = FREQUENCY
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

656
$ID = MODAL_DISPLACEMENT_OVER_FORCE
$NAME = Modal displacement / force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = DISPLACEMENT_OVER_MOMENT

657
$ID = ACCELERATION_BY_REF_ACCELERATION
$NAME = Acceleration x acceleration (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_ACCELERATION
$PARENT = CROSSPOWER

658
$ID = PRESSURE_BY_REF_PRESSURE
$NAME = Pressure x pressure (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_PRESSURE
$PARENT = CROSSPOWER

659
$ID = DISPLACEMENT_BY_REF_DISPLACEMENT
$NAME = Displacement x displacement (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_DISPLACEMENT
$PARENT = CROSSPOWER

660
$ID = VELOCITY_BY_REF_VELOCITY
$NAME = Velocity x velocity (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VELOCITY
$PARENT = CROSSPOWER

661
$ID = FORCE_BY_REF_FORCE
$NAME = Force x force (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_FORCE
$PARENT = CROSSPOWER

662
$ID = FLD_QUALITY_ZONE_ID
$NAME = FLD quality
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = STAMPING_SOLUTION_SET

663
$ID = FLD_DISTANCE
$NAME = FLD distance
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = STAMPING_SOLUTION_SET

664
$ID = STRESS_BY_REF_STRESS
$NAME = Stress x stress (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_PRESSURE
$PARENT = CROSSPOWER

665
$ID = RPF_BY_REF_RPF
$NAME = Random participation factor x random participation factor (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

666
$ID = MPF_BY_REF_MPF
$NAME = Modal participation factor x modal participation factor (ref)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

667
$ID = INV_PRESSURE_SQUARED
$NAME = Power inverse pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = INVERSE_SQUARE_PRESSURE
$PARENT = MECHANICAL_MODAL
$PARENT = DATA_SOURCE

668
$ID = ROTATIONAL_TRANSFORMATION
$NAME = Rotational transformation
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = EIGEN_VALUES[3]
$UNIT = NONE

669
$ID = VEXTEX_TRANSLATIONAL_STIFFNESS
$NAME = Translational stiffness for vertex
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = EIGEN_VALUES[3]
$UNIT = TSTIFNES
$PARENT = PROPERTY_BEAM_3D

670
$ID = VERTEX_ROTATIONAL_STIFFNESS
$NAME = Rotational stiffness for vertex
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = EIGEN_VALUES[3]
$UNIT = RSTIFNES
$PARENT = PROPERTY_BEAM_3D

671
$ID = DYNAMIC_PRESSURE
$NAME = Dynamic pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = FLUID_SOLUTION

672
$ID = TOTAL_PRESSURE
$NAME = Total pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = FLUID_SOLUTION
$PARENT = BOUNDARY_CONDITION_INLET

673
$ID = MOLECULAR_WEIGHT
$NAME = Molecular weight
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_FLUID

674
$ID = FLUID_VISCOSITY
$NAME = Fluid viscosity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_VOLUME_VELOCITY
$PARENT = FLUID_SOLUTION
$PARENT = MATERIAL_FLUID

675
$ID = CONSISTENCY_INDEX
$NAME = Consistency index
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_FLUID

676
$ID = POWER_LAW_INDEX
$NAME = Power law index
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MATERIAL_FLUID

677
$ID = REFERENCE_TEMPERATURE
$NAME = Reference temperature
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TEMPRTRE
$PARENT = MATERIAL_FLUID

678
$ID = YIELD_STRESS_THRESHOLD
$NAME = Yield stress threshold
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MATERIAL_FLUID

679
$ID = YIELDING_VISCOSITY
$NAME = Yielding viscosity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_VOLUME_VELOCITY
$PARENT = MATERIAL_FLUID

680
$ID = MINIMUM_VISCOSITY_LIMIT
$NAME = Minimum viscosity limit
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_VOLUME_VELOCITY
$PARENT = MATERIAL_FLUID

681
$ID = MAXIMUM_VISCOSITY_LIMIT
$NAME = Maximum viscosity limit
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MOMENT_OVER_VOLUME_VELOCITY
$PARENT = MATERIAL_FLUID

682
$ID = POROSITY
$NAME = Porosity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_FLUID_3D

683
$ID = OPEN_AREA
$NAME = Open area
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = PROPERTY_FLUID_3D

684
$ID = VISCOUS_RESISTANCE_COEFF
$NAME = Viscous resistance coefficients
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = PRESSURE_OVER_FORCE
$PARENT = PROPERTY_FLUID_3D

685
$ID = INERTIAL_RESISTANCE_COEFF
$NAME = Inertial resistance coefficients
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = CURVATURE
$PARENT = PROPERTY_FLUID_3D

686
$ID = MASS_FLOW_RATE
$NAME = Mass flow rate
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = MASSFLOW
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_OUTLET

687
$ID = DIRECTION
$NAME = Direction
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = NONE
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_MOVING_BELT

688
$ID = FLOW_TURBULENCE
$NAME = Flow turbulence
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_OUTLET

689
$ID = LENGTH_SCALE
$NAME = Length scale
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = BOUNDARY_CONDITION_INLET
$PARENT = BOUNDARY_CONDITION_OUTLET

690
$ID = HOLE_SIZE
$NAME = Hole size
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = BOUNDARY_CONDITION_INLET

691
$ID = BLADE_SPAN
$NAME = Blade span
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = LENGTH
$PARENT = BOUNDARY_CONDITION_INLET

692
$ID = HEAT_TRANSFER_COEFF
$NAME = Heat transfer coefficient
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = HEATTRANSFER
$PARENT = BOUNDARY_CONDITION_WALL
$PARENT = BOUNDARY_CONDITION_MOVING_BELT

693
$ID = BELT_SPEED
$NAME = Belt speed
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SPEED
$PARENT = BOUNDARY_CONDITION_MOVING_BELT

694
$ID = PERMEABILITY_MATRIX
$NAME = Permeability matrix
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SYMMETRICAL_TENSOR[3]
$UNIT = AREA
$PARENT = RTM_SOL_SET
$PARENT = PROPERTY_RTM_SHELL
$PARENT = PROPERTY_RTM_SOLID
$PARENT = PROPERTY_RTM_SHELL_CPD

695
$ID = ABSORPTIVITY
$NAME = Absorptivity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = LOAD_RADIATION

696
$ID = COMAC
$NAME = Coordinate modal assurance criterion
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = COMACS

697
$ID = ACOUSTIC_ENERGY_DENSITY
$NAME = Acoustic energy density
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = DATA_SOURCE

698
$ID = AREA
$NAME = Area
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = AREA
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

699
$ID = INFORMATION_RESULT
$NAME = Information result
$DTYPE = CHARACTERISTIC
$VTYPE = INTEGER
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

700
$ID = VALUE_RESULT
$NAME = Real result
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PERCENTAGE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

701
$ID = HEAT_GENERATION_RATE
$NAME = Heat generation rate
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = HEAT_GENERATION_RATE
$PARENT = PROPERTY_SOLID_3D
$PARENT = PROPERTY_FLUID_3D

702
$ID = TOTAL_TEMPERATURE
$NAME = Total temperature
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = TEMPRTRE
$PARENT = FLUID_SOLUTION
$PARENT = BOUNDARY_CONDITION_INLET

703
$ID = TURBULENCE_KINETIC_ENERGY
$NAME = Turbulence kinetic energy
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = SQUARE_VELOCITY
$PARENT = FLUID_SOLUTION

704
$ID = TURBULENT_DISSIPATION_RATE
$NAME = Turbulent dissipation rate
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = POWER_SPECTRAL_DENSITY_ACCELERATION
$PARENT = FLUID_SOLUTION

705
$ID = MACH_NUMBER
$NAME = Mach number
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = FLUID_SOLUTION

706
$ID = SOLUTION_DEPENDENT_VARIABLE
$NAME = Solution dependent variable
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = MECHANICAL_STATIC_LINEAR
$PARENT = MECHANICAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_BUCKLING_LINEAR
$PARENT = MECHANICAL_BUCKLING_NON_LINEAR
$PARENT = MECHANICAL_MODAL
$PARENT = THERMAL_STATIC_LINEAR
$PARENT = THERMAL_STATIC_NON_LINEAR
$PARENT = MECHANICAL_HARMONIC_LINEAR
$PARENT = MECHANICAL_HARMONIC_NON_LINEAR
$PARENT = MECHANICAL_TRANSIENT_LINEAR
$PARENT = MECHANICAL_TRANSIENT_NON_LINEAR
$PARENT = THERMAL_TRANSIENT_LINEAR
$PARENT = THERMAL_TRANSIENT_NON_LINEAR
$PARENT = MECHANICAL_CRASH_SOLUTION

707
$ID = RESULT_AXIS_SYSTEM
$NAME = Result axis system
$DTYPE = CHARACTERISTIC
$VTYPE = AXIS {$VAL=AXIS_RECTANGULAR_3D_COORDINATE,
                                AXIS_CYLINDRICAL_3D_COORDINATE,
                                AXIS_SPHERICAL_3D_COORDINATE,
                                AXIS_RECTANGULAR_3D_NODE,
                                AXIS_CYLINDRICAL_3D_NODE,
                                AXIS_SPHERICAL_3D_NODE}
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = NODE

708
$ID = TRESCA_CRITERION
$NAME = Tresca criterion
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PRESSURE
$PARENT = MECHANICAL_STATIC_LINEAR

709
$ID = SPRAY_SOL_SET
$NAME = Spray solution set
$DTYPE = SET
$CATEGORY = SET
$CHILD = TEMPERATURE
$PARENT = ANALYSIS_CASE

710
$ID = DEPOSITION_SOL_SET
$NAME = Deposition solution set
$DTYPE = SET
$CATEGORY = SET
$CHILD = TEMPERATURE
$CHILD = THICKNESS
$PARENT = ANALYSIS_CASE

711
$ID = PAINT_SOL_SET
$NAME = Paint solution set
$DTYPE = SET
$CATEGORY = SET
$CHILD = TEMPERATURE
$CHILD = THICKNESS
$CHILD = MOISTURE
$PARENT = ANALYSIS_CASE

712
$ID = MOISTURE
$NAME = Moisture
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PERCENTAGE
$PARENT = PAINT_SOL_SET

713
$ID = ACCELERATION_OVER_ACCELERATION
$NAME = Acceleration / Acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

714
$ID = ACCELERATION_OVER_STRESS
$NAME = Acceleration / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

715
$ID = ACCELERATION_OVER_STRAIN
$NAME = Acceleration / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

716
$ID = FORCE_OVER_FORCE
$NAME = Force / Force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

717
$ID = FORCE_OVER_STRESS
$NAME = Force / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

718
$ID = FORCE_OVER_STRAIN
$NAME = Force / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

719
$ID = DISPLACEMENT_OVER_DISPLACEMENT
$NAME = Displacement / Displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

720
$ID = DISPLACEMENT_OVER_STRESS
$NAME = Displacement / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

721
$ID = DISPLACEMENT_OVER_STRAIN
$NAME = Displacement / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

722
$ID = VELOCITY_OVER_VELOCITY
$NAME = Velocity / Velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

723
$ID = VELOCITY_OVER_ACCELERATION
$NAME = Velocity / Acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

724
$ID = VELOCITY_OVER_DISPLACEMENT
$NAME = Velocity / Displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

725
$ID = VELOCITY_OVER_STRESS
$NAME = Velocity / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

726
$ID = VELOCITY_OVER_STRAIN
$NAME = Velocity / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

727
$ID = PRESSURE_OVER_PRESSURE
$NAME = Pressure / Pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

728
$ID = PRESSURE_OVER_STRAIN
$NAME = Pressure / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

729
$ID = PRESSURE_OVER_STRESS
$NAME = Pressure / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

730
$ID = VOLUME_ACCELARATION_OVER_VOLUME_ACCELERATION
$NAME = Volume Acceleration / Volume Acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

731
$ID = VOLUME_VELOCITY_OVER_VOLUME_VELOCITY
$NAME = Volume Velocity / Volume Velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

732
$ID = VOLUME_VELOCITY_OVER_STRESS
$NAME = Volume Velocity / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

733
$ID = VOLUME_VELOCITY_OVER_STRAIN
$NAME = Volume Velocity / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

734
$ID = VOLUME_ACCELERATION_OVER_STRAIN
$NAME = Volume Acceleration / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

735
$ID = VOLUME_ACCELERATION_OVER_STRESS
$NAME = Volume Acceleration / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

736
$ID = STRESS_OVER_FORCE
$NAME = Stress / Force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

737
$ID = STRESS_OVER_DISPLACEMENT
$NAME = Stress / Displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

738
$ID = STRESS_OVER_VELOCITY
$NAME = Stress / Velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

739
$ID = STRESS_OVER_ACCELERATION
$NAME = Stress / Acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

740
$ID = STRESS_OVER_PRESSURE
$NAME = Stress / Pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

741
$ID = STRESS_OVER_STRESS
$NAME = Stress / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

742
$ID = STRESS_OVER_STRAIN
$NAME = Stress / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

743
$ID = STRAIN_OVER_FORCE
$NAME = Strain / Force
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

744
$ID = STRAIN_OVER_DISPLACEMENT
$NAME = Strain / Displacement
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

745
$ID = STRAIN_OVER_VELOCITY
$NAME = Strain / Velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

746
$ID = STRAIN_OVER_ACCELERATION
$NAME = Strain / Acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

747
$ID = STRAIN_OVER_PRESSURE
$NAME = Strain / Pressure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

748
$ID = STRAIN_OVER_VOLUME_ACCELARATION
$NAME = Strain / Volume Acceleration
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

749
$ID = STRAIN_OVER_VOLUME_VELOCITY
$NAME = Strain / Volume Velocity
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

750
$ID = STRAIN_OVER_STRAIN
$NAME = Strain / Strain
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

751
$ID = STRAIN_OVER_STRESS
$NAME = Strain / Stress
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE

752
$ID = FORCE_BY_REF_DISPLACEMENT
$NAME = Force x displacement (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

753
$ID = FORCE_BY_REF_ACCELERATION
$NAME = Force x acceleration (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

754
$ID = FORCE_BY_REF_VELOCITY
$NAME = Force x velocity (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

755
$ID = FORCE_BY_REF_PRESSURE
$NAME = Force x pressure (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

756
$ID = FORCE_BY_REF_VOLUME_VELOCITY
$NAME = Force x volume velocity (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

757
$ID = FORCE_BY_REF_VOLUME_ACCELERATION
$NAME = Force x volume acceleration (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

758
$ID = FORCE_BY_REF_STRESS
$NAME = Force x stress (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

759
$ID = FORCE_BY_REF_STRAIN
$NAME = Force x strain (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

760
$ID = DISPLACEMENT_BY_REF_STRAIN
$NAME = Displacement x strain (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

761
$ID = DISPLACEMENT_BY_REF_STRESS
$NAME = Displacement x stress (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

762
$ID = VELOCITY_BY_REF_STRAIN
$NAME = Velocity x strain (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

763
$ID = VELOCITY_BY_REF_STRESS
$NAME = Velocity x stress (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

764
$ID = ACCELERATION_BY_REF_STRAIN
$NAME = Acceleration x strain (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

765
$ID = ACCELERATION_BY_REF_STRESS
$NAME = Acceleration x stress (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

766
$ID = PRESSURE_BY_REF_STRAIN
$NAME = Pressure x strain (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

767
$ID = PRESSURE_BY_REF_STRESS
$NAME = Pressure x stress (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

768
$ID = STRAIN_BY_REF_STRAIN
$NAME = Strain x strain (reference)
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = NONE
$PARENT = CROSSPOWER

769
$ID = PROPERTY_RTM_RUNNER
$NAME = RTM runner property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = ISOTROPIC_PERMEABILITY
$CHILD = THICKNESS
$CHILD = FIBER_CONTENT
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_TETRA4 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_PENTA6 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SOLID_3D_HEXA8 {$POS=ELEMENT}

770
$ID = PROPERTY_RTM_SHELL_CPD
$NAME = RTM Shell CPD property
$DTYPE = ENTITY
$CATEGORY = PROPERTY
$CHILD = THICKNESS
$CHILD = FIBER_CONTENT
$CHILD = FIBER_DIR_1
$CHILD = FIBER_DIR_2
$CHILD = FIBER_DIR_3
$CHILD = PERMEABILITY_MATRIX
$APPLYTO = ELEMENT_SHELL_3D_TRIA3 {$POS=ELEMENT}
$APPLYTO = ELEMENT_SHELL_3D_QUAD4 {$POS=ELEMENT}

771
$ID = EXTENT_OF_CURE
$NAME = Extend of cure
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = PERCENTAGE
$PARENT = RTM_SOL_SET

772
$ID = EXOTHERMY
$NAME = Exothermy
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = SCALAR
$UNIT = EXOTHERMY
$PARENT = RTM_SOL_SET

773
$ID = FIBER_DIR_1
$NAME = Fiber in direction 1
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = NONE
$PARENT = PROPERTY_RTM_SHELL
$PARENT = PROPERTY_RTM_SOLID
$PARENT = PROPERTY_RTM_SHELL_CPD

774
$ID = FIBER_DIR_2
$NAME = Fiber in direction 2
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = NONE
$PARENT = PROPERTY_RTM_SHELL
$PARENT = PROPERTY_RTM_SOLID
$PARENT = PROPERTY_RTM_SHELL_CPD

775
$ID = FIBER_DIR_3
$NAME = Fiber in third direction
$DTYPE = CHARACTERISTIC
$VTYPE = REAL
$MTYPE = VECTOR[3]
$UNIT = NONE
$PARENT = PROPERTY_RTM_SHELL
$PARENT = PROPERTY_RTM_SOLID
$PARENT = PROPERTY_RTM_SHELL_CPD