forces

Unless otherwise specified, data names are accessible in level 3 only.

engineering_type

The engineering type of load. Engineering loads act on set entities. Valid values are:

0 - Classic load

3 - Directional engineering load

14 - Composite plate load

Type: unsigned integer

The following data names are available for both classic and engineering loads:

attributesmax

The number of attributes owned by this entity.

Type: unsigned integer

collector

Pointer to the collector that owns the load.

Type: pointer (levels 2, 3, and 4)

config

The configuration of the entity.

1 - Force

Type: unsigned integer

definedentity

True if the entity is defined, false otherwise.

Type: Boolean

entityid

The ID of the entity the load is attached to.

Type: integer

entitytype

The type of the entity to which the load is applied.

1 - node

3 - comp

10 - set

27 - point

Type: integer

entitytypename

The string type of the entity to which the load is applied.

nodes

comps

sets

points

Type: string

id

The ID of the entity.

Type: unsigned integer

include

The ID of the include file the entity is organized in.

Type: entity

includeid

The ID of the include file the entity is organized in.

Type: unsigned integer

internalid

The ID of the entity.

Type: unsigned integer

internalname

The internal name of the entity.

Type: string

moduleid

The module ID of the entity.

Type: integer

poolname

The pool name of the entity.

Type: string

set

Pointer to the set when the load is applied to a set.

Type: pointer

solver_id

The solver ID of the entity.

Type: integer

solverkeyword

The name of the solver keyword.

Type: string

solvername

The solver name of the entity for entities enabled for name pool, otherwise the internal name of the entity.

Type: string

type

The solver dependent type code for the entity.

Type: integer

typename

The solver dependent type name for the entity.

Type: string

vectorx

The x component of the unit vector in the global coordinate system.

Type: double

vectory

The y component of the unit vector in the global coordinate system.

Type: double

vectorz

The z component of the unit vector in the global coordinate system.

Type: double

The following data names are available for classic loads:

baselocation

The coordinates where the load on a component or set should display. Valid for hm_getvalue query only.

Also used to convert the load vector components into local values for non-rectangular coordinate systems.

Type: triple double

baselocationx

The x-coordinate where the load on a component or set should display.

Also used to convert the load vector components into local values for non-rectangular coordinate systems.

Type: double

baselocationy

The y-coordinate where the load on a component or set should display.

Also used to convert the load vector components into local values for non-rectangular coordinate systems.

Type: double

baselocationz

The z-coordinate where the load on a component or set should display.

Also used to convert the load vector components into local values for non-rectangular coordinate systems.

Type: double

comp1

The x component of the vector.

Type: double

comp2

The y component of the vector.

Type: double

comp3

The z component of the vector.

Type: double

component

Pointer to the component when the load is applied to a component.

Type: pointer

curveid

The ID of the curve defining the load magnitude when a curve has been used to define the load.

Type: integer

inputsystem

Pointer to the reference system.

Type: pointer

inputsystemid

The ID of the reference system.

Type: integer

local_comp1

The x component of the vector in the local coordinate system.

Type: double

local_comp2

The y component of the vector in the local coordinate system.

Type: double

local_comp3

The z component of the vector in the local coordinate system.

Type: double

local_vector

The load vector in the local coordinate system.

Type: triple double

local_vectorx

The x component of the unit vector in the local coordinate system.

Type: double

local_vectory

The y component of the unit vector in the local coordinate system.

Type: double

local_vectorz

The z component of the unit vector in the local coordinate system.

Type: double

location

The ID of the node where the load is applied. Valid for hm_getvalue query only.

Type: entity

magnitude

The magnitude of the vector.

Type: double

mappedid

The ID of the original load on geometry.

Type: integer

node

Pointer to the node when the load is applied to a node.

Type: pointer

vector

The component of the unit vector. Valid for hm_getvalue query only.

Type: triple double

xscale

The x scale or time scale of the load curve when a curve has been used to define the load.

Type: double

The following data names are available for composite plate loads:

The composite plate loads are only available in OptiStruct, Nastran, and Abaqus profiles.

displayname

The text for the title entry.

Type: string

epsx

The laminate midplane strain in the laminate x direction.

Type: double

epsy

The laminate midplane strain in the laminate y direction.

Type: double

gamxy

The laminate midplane engineering shear strain (in the laminate xy direction).

Type: double

kapx

The laminate curvature in the laminate x direction.

Type: double

kapxy

The laminate curvature in the laminate xy direction.

Type: double

kapy

The laminate curvature in the laminate y direction.

Type: double

mx

The laminate bending moment per unit width in the laminate x direction.

Type: double

mxy

The laminate twisting moment per unit width in the laminate xy direction.

Type: double

my

The laminate bending moment per unit width in the laminate y direction.

Type: double

nx

The laminate in-plane force per unit width in the laminate x direction.

Type: double

nxy

The laminate in-plane shear force per unit width (in the laminate xy direction).

Type: double

ny

The laminate in-plane force per unit width in the laminate y direction.

Type: double

qx

The laminate transverse shear force per unit width in the laminate xz direction.

Type: double

qy

The laminate transverse shear force per unit width in the laminate yz direction.

Type: double

sigfx

The laminate average flexural stress in the laminate x direction.

Type: double

sigfy

The laminate average flexural stress in the laminate y direction.

Type: double

sigx

The laminate average stress in the laminate x direction.

Type: double

sigy

The laminate average normal stress in the laminate y direction.

Type: double

thermal_bottom

The difference of laminate temperature at the bottom (z min) surface and laminate reference temperature.

Type: double

thermal_top

The difference of laminate temperature at the top (z max) surface and laminate reference temperature.

Type: double

taufxy

The laminate average flexural stress in the laminate xy direction.

Type: double

tauxy

The laminate average in-plane shear stress (in the laminate xy direction).

Type: double

tauyz

The laminate average transverse shear stress in the laminate yz direction.

Type: double

tauzx

The laminate average transverse shear stress in the laminate zx direction.

Type: double

The following data names are available for engineering loads:

compx

The dot product of the load vector projected on the global x axis.

Type: double

compy

The dot product of the load vector projected on the global y axis.

Type: double

compz

The dot product of the load vector projected on the global z axis.

Type: double

distribution_table_count

The number of rows of a non-uniform engineering load.

Type: unsigned integer

field

The field entity that stores the tabular load data.

Type: entity

location_unit_node

The nodes for which the data is stored in the table for a non-uniform engineering load.

Type: entity array

orient

The load orientation vector.

Type: triple double

orientx

The x component of the load orientation vector.

Type: double

orienty

The y component of the load orientation vector.

Type: double

orientz

The z component of the load orientation vector.

Type: double

resultant_magnitude

The resultant scalar component of the load vector in the global coordinate system.

Type: double

The following data names are available for Abaqus engineering loads:

boundary_region

The type of boundary region on which load is applied.

LAGRANGIAN (default) - Apply the concentrated load to a Lagrangian boundary region

SLIDING - Apply the concentrated load to a Sliding boundary region

EULERIAN - Apply the concentrated load to an Eulerian boundary region Type: string n

Type: string

curveid

The amplitude curve that defines the variation of the load magnitude during the step.

Type: entity

cyclic_mode

The cyclic symmetry mode number of loads that are applied in the current steady-state dynamics procedure.

Type: integer

distribution

The distribution type:

0 - Uniform

1 - Non-uniform

Type: unsigned integer

expanded_form_flag

Flag to export loads on nodes.

Type: Boolean

follower_load

Flag to activate follower load options.

Type: Boolean

load_case

The load case number (1 or 2).

Type: integer

magnitude

Reference load magnitude.

Type: double

matrix_generation

The mutually exclusive parameters for matrix generation and steady-state dynamics analyses.

REAL - Define the real (in-phase) part of the loading

IMAGINARY - Define the imaginary (out-of-phase) part of the loading

Type: string

vector

Vector components to define degree of freedom.

Type: triple double

The following data names are available for ADVC engineering loads:

displayname

The text for the title entry.

Type: string

distribution

The distribution type:

0 - Uniform

1 - Non-uniform

Type: unsigned integer

expanded_form_flag

Flag to export loads on nodes.

Type: Boolean

keyword_name

Flag to specify if the title entry is enabled.

Type: Boolean

load_step_id

The ID of the referred loadstep.

Type: entity

magnitude

The scale factor (default 1.0).

Type: double

prev_bc

Flag to hold previously applied boundary conditions.

Type: Boolean

vector

The direction of the force vector. At least one of the vector components must be non-zero.

Type: triple double

The following data names are available for LS-DYNA engineering loads:

The following data names are available for Nastran and OptiStruct engineering loads:

distribution

The distribution type:

0 - Uniform

1 - Non-uniform

Type: unsigned integer

inputsystem

The coordinate system ID. A value of 0 or blank references the basic coordinate system.

Type: entity

magnitude

For FORCE, the scale factor.

For FORCE1, the force magnitude.

Type: double

os_g1

The grid point ID.

Type: entity

os_g2

The grid point ID.

Type: entity

vector

The direction of the force vector measured in the system defined by CID. At lesat one of the vector components must be non-zero.

Type: triple double

The following data names are available for OptiStruct engineering loads:

curveid

The ID of the MBCRV entries giving load versus independent variable measured in the coordinate system defined by CID.

Type: integer

expanded_form_flag

Flag to export loads on nodes.

Type: Boolean

follower_load

Flag to activate follower load options.

Type: Boolean

os_eid

The ID of the MBVAR for the independent variable expression.

Type: entity

os_g4

The grid point ID whose parent body hosts the coordinate system with repect to which the force is defined. The force vector changes direction with the orientation of the body. If not specified, the force is defined with repect to the ground body (the basic coordinate system).

Type: entity

os_intrp_type

The interpolation type. Valid values are AKIMA (default), CUBIC or LINEAR.

Type: string

The following data names are available for Radioss engineering loads:

curveid

The ID of the curve defining the time function identifier.

Type: entity

crash_dir_flag

Specifies if directions can be input using vector or crash direction semantics:

0 - Select global direction

1 - Select direction component

Type: unsigned integer

crash_dofstring

The sring that outputs the computed DOF directions, useful if the direction is specified using a string vector.

Type: string

displayname

The text for the title entry.

Type: string

inputsystem

The system ID for the skew identifier.

Type: entity

magnitude

The ordinate scale factor (default 1.0).

Type: double

rad_dir

The direction in translation. Valid values are X, Y and Z. Only valid for CLOAD.

Type: string

rad_itype

The preloading type.

1 - Preload is a force (default).

2 - Preload is a stress.

Type: integer

rad_sect_id

The section identifier to which preloading is applied.

Type: entity

rad_sensor_id

The ID of the sensor entity for CLOAD.

Type: entity

xscale

The abscissa (time) scale factor (default 1.0).

Type: double

Version History

2020 - New support for engineering loads. Added new data names compx, compy, compz, crash_dir_flag, crash_dofstring, displayname, distribution, distribution_table_count, engineering_type, expanded_form_flag, field, follower_load, local_comp1, local_comp2, local_comp3, local_vector, local_vectorx, local_vectory, local_vectorz, location, location_unit_node, orient, orientx, orienty, orientz, os_eid, os_g1, os_g2, os_g4, os_intrp_type, rad_dir, rad_sensor_id and resultant_magnitude.

2020.1 - Added new data name solverkeyword.

2021 - Added new data names keyword_name, load_step_id and prev_bc. New ADVC support.

2021.1 – Added new data names for LS-DYNA engineering loads: crash_dir_flag, curveid, follower_load, force_ev_fn, inputsystem, load_dof, magnitude, plane_node1, plane_node2, plane_node3, rigid_part and vector.

2021.1 - Added new data names moduleid, poolid, poolname, and solver_id.

2021.2 - Added new engineering_type value 14 and new data names for composite plate loads: epsx, epsy, gamxy, kapx, kapxy, kapy, mx, mxy, my, nx, nxy, ny, qx, qy, sigfx, sigfy, sigx, sigy, taufxy, tauxy, tauyz, and tauzx. Added new data names for Radioss engineering loads rad_itype and rad_sect_id. Added new data names internalname and solvername.

2022.1 - Added new data names for composite plate loads thermal_bottom and thermal_top.

2022.2 - Added new data names for Abaqus engineering loads: boundary_region, cyclic_mode, load_case, and matrix_generation.