ales

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

activesuppressed
Returns non-zero if the entity is set inactive, 0 otherwise.
Type: integer
alesid
A set ID defining the ALE part(s) for this coupling (fluids).
Type: entity
amgida
The ALE multi-material group ID (AMMGID) of the air.
Type: entity
amgidg
The ALE multi-material group ID (AMMGID) of the gas.
Type: entity
aorif
Total inflator orifice area.
Type: double
asidtyp
ALE set ID type EQ.0: Part set ID (PSID), EQ.1: Part ID (PID).
Type: integer
attributesmax
The number of attributes owned by this entity.
Type: unsigned integer
birth
Start time for coupling.
Type: double
color
The 1-64 color of the entity.
Type: integer
color_rgb
The RGB color of the entity.
Type: string
config
101 – FsiProjection
102 – ReferenceSystemCurve
103 – ReferenceSystemGroup
104 – ReferenceSystemNode
105 – ReferenceSystemSwitch
106 – Smoothing
107 – TankTest
108 – MultiMaterialGroup
Type: unsigned integer
crFlag
(PRTYPE = 4) ICR is a flag the specifies the method LS-DYNA uses for determining the center point for expansion and rotation; (PRTYPE = 9) NID sets the Lagrangian node ID for the node that anchors the center of ALE mesh expansion.
Type: integer
death
End time for coupling.
Type: double
definedentity
True if the entity is defined, false otherwise.
Type: Boolean
entityId
Set ID.
Type: entity
entityId_type
Type of ID from sid.
Type: string
entityType
Set type.
Type: integer
excudedEntityId
ALE set part ID.
Type: entity
excudedEntityId_type
Type of ID from IPIDXCL.
Type: string
excudedEntityType
Set ID type of IPIDXCL.
Type: integer
expansionConstr
Expansion constraint.
Type: integer
firstmainnodeid
ID of first node or set for constraining the dependent nodes.
Type: entity
firstmainnodeid_IS_INVERTED
NID1 Type.
Type: integer
firstmainnodeid_type
Type of ID from NID1.
Type: string
groupId
Node group ID defined by *ALE_REFERENCE_SYSTEM_NODE.
Type: entity
icorrec
Advection error correction method.
Type: integer
id
The ID of the entity.
Type: unsigned integer
id1
Entity ID 1 parameters supporting each PRTYPE used during the simulation.
Type: entity
id1_type
Type of id1.
Type: string
id2
Entity ID 2 parameters supporting each PRTYPE used during the simulation.
Type: entity
id2_type
Type of id2.
Type: string
id3
Entity ID 3 parameters supporting each PRTYPE used during the simulation.
Type: entity
id3_type
Type of id3.
Type: string
id4
Entity ID 4 parameters supporting each PRTYPE used during the simulation.
Type: entity
id4_type
Type of id4.
Type: string
id5
Entity ID 5 parameters supporting each PRTYPE used during the simulation.
Type: entity
id5_type
Type of id5.
Type: string
id6
Entity ID 6 parameters supporting each PRTYPE used during the simulation.
Type: entity
id6_type
Type of id6.
Type: string
id7
Entity ID 7 parameters supporting each PRTYPE used during the simulation.
Type: entity
id7_type
Type of id7.
Type: string
id8
Entity ID 8 parameters supporting each PRTYPE used during the simulation.
Type: entity
id8_type
Type of id8.
Type: string
idtype
Set type EQ.0: Part set, EQ.1: Part.
Type: 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
inorm
Type of coupling.
Type: integer
internalid
The ID of the entity.
Type: unsigned integer
internalname
The internal name of the entity.
Type: string
ipre
Reference system type.
Type: integer
lagsid
A set ID defining the Lagrangian part(s) for this coupling (structures).
Type: entity
lagsid_type
Type of ID from lagsid.
Type: string
lcid1
Load curve ID 1.
Type: entity
lcid10
Load curve ID 10.
Type: entity
lcid11
Load curve ID 11.
Type: entity
lcid12
Load curve ID 12.
Type: entity
lcid2
Load curve ID 2.
Type: entity
lcid3
Load curve ID 3.
Type: entity
lcid4
Load curve ID 4.
Type: entity
lcid5
Load curve ID 5.
Type: entity
lcid6
Load curve ID 6.
Type: entity
lcid7
Load curve ID 7.
Type: entity
lcid8
Load curve ID 8.
Type: entity
lcid9
Load curve ID 9.
Type: entity
limitRation
Limit ratio for mesh expansion and contraction.
Type: double
lsidtyp
Lagrangian set ID type EQ.0: Part set ID (PSID), EQ.1: Part ID (PID).
Type: integer
machl
A limiting MACH number for the gas at the throat.
Type: double
mdotlc
LCID for mass flow rate as a function of time.
Type: entity
meshExpCtrFlag
ALE mesh expansion control flag.
Type: integer
meshPaddFraction
FRCPAD (ALE mesh padding fraction ranging from 0.01 to 0.2).
Type: double
meshRempFactor
Mesh remapping factor.
Type: double
moduleid
The module ID of the entity.
Type: integer
name
The name of the entity.
Type: string
nid1
Node ID 1.
Type: entity
nid10
Node ID 10.
Type: entity
nid11
Node ID 11.
Type: entity
nid12
Node ID 12.
Type: entity
nid2
Node ID 2.
Type: entity
nid3
Node ID 3.
Type: entity
nid4
Node ID 4.
Type: entity
nid5
Node ID 5.
Type: entity
nid6
Node ID 6.
Type: entity
nid7
Node ID 7.
Type: entity
nid8
Node ID 8.
Type: entity
nid9
Node ID 9.
Type: entity
nodeId
NID (Lagrangian NID).
Type: entity
numpnt
The number of points in curves.
Type: integer
optionalCard
Optional card 3.
Type: Boolean
outputsuppressed
Returns non-zero if the entity is set "do not export", 0 otherwise.
Type: integer
pamb
The pressure inside the tank before jetting.
Type: double
paramId
Set ID depending on the reference system (PRTYPE) choice.
Type: entity
paramId_type
Type of ID from PRID.
Type: string
pfinal
The final equilibrated pressure inside the tank from the tank test.
Type: double
poolid
The pool number of the entity.
Type: integer
poolname
The pool name of the entity.
Type: string
refSysType
Reference system type.
Type: integer
rotationConstr
Rotational constraint.
Type: integer
secondarynodeid
Dependent node or node set ID.
Type: entity
secondarynodeid_IS_INVERTED
DNID Type.
Type: integer
secondarynodeid_type
Type of ID from DNID.
Type: string
secondmainnodeid
ID of second node or node set for constraining the dependent nodes.
Type: entity
secondmainnodeid_IS_INVERTED
NID2 Type.
Type: integer
secondmainnodeid_type
Type of ID from NID2.
Type: entity
sid
Set ID.
Type: entity
sid_type
Type of ID from sid.
Type: string
smmgid
A set ID referring to a group of one or more ALE-Multi-Material-Group (AMMG) IDs which represents the ALE materials interacting with the Lagrangian structure.
Type: entity
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
t1
Time for switching reference system type 1.
Type: double
t2
Time for switching reference system type 2.
Type: double
t3
Time for switching reference system type 3.
Type: double
t4
Time for switching reference system type 4.
Type: double
t5
Time for switching reference system type 5.
Type: double
t6
Time for switching reference system type 6.
Type: double
t7
Time for switching reference system type 7.
Type: double
tankv
Volume of the tank used in a tank test from which the tank pressure is measured.
Type: double
translationConstr
BCTRAN (Translational constraint).
Type: integer
type1
Type 1 reference system type.
Type: integer
type2
Type 2 reference system type.
Type: integer
type3
Type 3 reference system type.
Type: integer
type4
Type 4 reference system type.
Type: integer
type5
Type 5 reference system type.
Type: integer
type6
Type 6 reference system type.
Type: integer
type7
Type 7 reference system type.
Type: integer
type8
Type 8 reference system type.
Type: integer
velmax
Maximum allowable gas velocity across the inflator orifice.
Type: double
xc
X Center of mesh expansion and rotation.
Type: double
xco
The x-coordinate of constraint vector.
Type: double
yc
Y Center of mesh expansion and rotation.
Type: double
yco
The y-coordinate of constraint vector.
Type: double
zc
Z Center of mesh expansion and rotation.
Type: double
zco
The z-coordinate of constraint vector.
Type: double

Version History

2026