THIS 22.1

Data Extraction Reference Table

Data extraction reference table

Data type Keyword Second word Third word Fourth word Description
Airbag air Airbag id [pr]essure - pressure
[vo]lume - volume
[ie] - internal energy
[in] - mass flow rate in
[ou] - mass flow rate out
min - mass in
mou - mass out
[tm] - total mass
[de]nsity - Density
sa - Surface area
[te]mp - Gas temperature
rf - Reaction force
maf - Mass flow rate through fabric
mav - Mass flow rate through vent
mof - Mass out through fabric
mov - Mass out through vent
tk - Translational Kinetic Energy
dmp - Damping Energy
pp - Average Particle Pressure
if - Inflator Energy
Airbag CPM Part Data
(ABSTAT_CPM) 		ab_cpm_pa Airbag id Part id [pr]essure Pressure
maf Mass flow rate through fabric
mav Mass flow rate through vent
ta Total area
[un]blocked Unblocked area
[te]mperature Temperature
ppr Press s+
npr Press s-
hc Heat Convection Energy
ev Enhanced Vent Flag
le Leak Energy
gas Gas Flow Rate
pvo Por Volume
pte Part Temperature
Airbag CV Part Data
(ABSTAT) 		ab_cv_pa Airbag id Part id [un]blocked Unblocked area
ba Blocked area
lk Leakage
Airbag Chamber Data
(ABSTAT_CHAMBER) 		ab_chamber Airbag id Part id [pr]essure Pressure
[vo]lume Volume
[de]nsity Density
ie Internal Energy
in Mass flow rate in
[ou]t Mass flow rate out
tm Total mass
sa Surface area
[te]mperature Temperature
rf Reaction Force
tr Translational Energy
np Number of Particles
pp Average Particle Pressure
Airbag Sensors
(CPM_SENSOR) 		ab_sensor Sensor id xc - X coord
yc - Y coord
zc - Z coord
vx - X Velocity
vy - Y Velocity
vz - Z Velocity
vm - Velocity Magnitute
[pr]essure - pressure
[de]nsity - Density
[te]mp - Gas temperature
np - N Particles
Beam Bea Beam id [n]ormal x Axial force
y Shear force in Y
z Shear force in Z
[m]oment y Moment in Y
z Moment in Z
x Torsional moment
[stra]in - Axial strain
[e]nergy p1 Bending energy: end 1
p2 Bending energy: end 2
[r]otation y1 Y rotation: end 1
y2 Y rotation: end 2
z1 Z rotation: end 1
z2 Z rotation: end 2
x Torsional rotation
[b]ending y1 Y Bending moment: end 1
y2 Y Bending moment: end 2
z1 Z Bending moment: end 1
z2 Z Bending moment: end 2
[e]nergy a Axial collapse energy
i Internal energy
[stre]ss x Axial stress
xy XY Shear stress
zx ZX Shear stress
[eff] - Effective plastic strain
[exx] - Axial strain
[e]xtra ## Extra data ##
[di]screte dx Relative Axial displacement
dy Relative S - Displacement
dz Relative T - Displacement
rx Axial rotation
ry Rotation in S
rz Rotation in T
na Relative Axial force
ns Resultant S - Force
nt Resultant T - Force
ma Axial moment
ms Moment in S
mt Moment in T
axx Axial Direction X
axy Axial Direction Y
axz Axial Direction Z
sx S - Direction X
sy S - Direction Y
sz S - Direction Z
tx T - Direction X
ty T - Direction Y
tz T - Direction Z
Bearing bear Bearing id [fx] - X Force
[fy] - Y Force
[fz] - Z Force
[mx] - X Moment
[my] - Y Moment
[mz] - Z Moment
[dx] - X Displacement
[dy] - Y Displacement
[dz] - Z Displacement
[ax] - X Angle
[ay] - Y Angle
[az] - Z Angle
[lfx] - Local X Force
[lfy] - Local Y Force
[lfz] - Local Z Force
[lmx] - Local X Moment
[lmy] - Local Y Moment
[lmz] - Local Z Moment
[ldx] - Local X Displacement
[ldy] - Local Y Displacement
[ldz] - Local Z Displacement
[lax] - Local X Angle
[lay] - Local Y Angle
[laz] - Local Z Angle
Boundary Bou Boundary id [n]odal loads fx Applied X Force
fy Applied Y Force
fz Applied Z Force
fm Applied Resultant force
e Energy from applied force
[ri]gid body loads fx Applied X Force
fy Applied Y Force
fz Applied Z Force
fm Applied Resultant force
e Energy from applied force
[p]ressure nodal loads fx Applied X Force
fy Applied Y Force
fz Applied Z Force
fm Applied Resultant force
e Energy from applied force
[rv]elocity r-body loads fx BC motion X Force
fy BC motion Y Force
fz BC motion Z Force
fm Resultant BC motion force
en Energy from BC motion
mx BC motion X Moment
my BC motion Y Moment
mz BC motion Z Moment
mm BC Moment Magnitude
[v]elocity nodal loads fx BC motion X Force
fy BC motion Y Force
fz BC motion Z Force
fm Resultant BC motion force
e Energy from BC motion
CESE Element or Point cese_el / cese_pt Element / Point id [c]oord x Current X coord
y Current Y coord
z Current Z coord
m Current Vector
[ve]locity x X Velocity
y X Velocity
z Z Velocity
m Velocity Magnitude
[vo]rticity x X Vorticity
y Y Vorticity
z Z Vorticity
m Vorticity Magnitude
[d]ensity - Density
[pr]essure - Pressure
[t]emperature - Temperature
CESE FSI Drag cese_fs 1=solid, 2=shell, 3=sol2D, 4=beam [dr]ag px X Pressure Force
py Y Pressure Force
pz Z Pressure Force
pm Pressure Force Magnitude
CESE Segment Set Drag cese_ss Part id (0 if only one part requested) [dr]ag px X Pressure Force
py Y Pressure Force
pz Z Pressure Force
pm Pressure Force Magnitude
vx X Viscous Force
vy Y Viscous Force
vz Z Viscous Force
vm Viscous Force Magnitude
area Total Area
Contact Con / Sli Contact id [f]orce xa A Surface X force
ya A Surface Y force
za A Surface Z force
ma A Surface Force Magnitude
xb B Surface X force
yb B Surface Y force
zb B Surface Z force
mb B Surface Force Magnitude
[mo]ment xa A Surface X moment
ya A Surface Y moment
za A Surface Z moment
xb B Surface X moment
yb B Surface Y moment
zb B Surface Z moment
[ma]ss a
 A Surface Mass
b
 B Surface Mass
[e]nergy t Total energy (A + B surface)
a
 A Surface side energy
b
 B Surface side energy
f Frictional energy
[g]eometric fx X force
fy Y force
fz Z force
fm Force Magnitude
mx Moment in X
my Moment in Y
mz Moment in Z
mm Moment Magnitude
Cross section Cro / Sec Section id [f]orce x X force
y Y force
z Z force
m Force Magnitude
[m]oment x Moment in X
y Moment in Y
z Moment in Z
m Moment Magnitude
[c]entroid x X centroid coord
y Y centroid coord
z Z centroid coord
[a]rea - Area of section
EM Element, Node or Point em_el / em_nd / em_pt Element / Node / Point id [co]ord x Current X coord
y Current Y coord
z Current Z coord
m Current Vector
[cu]rrent x X Current
y X Current
z Z Current
m Current Magnitude
[a]field x X AField
y Y AField
z Z AField
m AField Magnitude
[b]field x X BField
y Y BField
z Z BField
m BField Magnitude
[e]field x X EField
y Y EField
z Z EField
m EField Magnitude
[l]force x X Lorentz Force
y Y Lorentz Force
z Z Lorentz Force
m Lorentz Force Magnitude
[si]gma - Sigma
[m]ur - Mu-R
[j]hrate - JHRate
[sc]alp
-
Scalar Potential (Node only)
EM Circuit em_ci Circuit id [v]oltage - voltage
[ch]arge - charge
[cu]rrent - current
[d]resist - Circuit Resistance
[j]resist - Equivalent Resistance
[i]nduct - Inductance
[mi1] - Mutual Inductance 1
[mi2] - Mutual Inductance 2
[mi3] - Mutual Inductance 3
EM Circuit0D em_cd Circuit0D id [dv]oltage - voltage
[dch]arge - charge
[dcu]rrent - current
[de]nergy - Total Energy
EM PartData em_pd PartData id [x]lf - X Lorentz Force
[y]lf - Y Lorentz Force
[z]lf - Z Lorentz Force
[ml]f - Lorentz Force Magnitude
[j]he - Joule Heating Energy
[mg]e - Magnetic Energy
[k]te - Kinetic Energy
[p]te - Plastic Energy
EM IsoPotOut em_ip IsoPotOut id [v]oltage - voltage
[c]urrent - current
EM CircuitRes em_cr CircuitRes id [c]urc - Contact Current
[r]esc - Contact Resistance
[j]hrc - Contact Joule heat rate
[a]reac - Contact Area
EM BoundaryOut em_bo BoundaryOut id [v]oltage - Voltage
[c]urrent - Current
[a]rea - Area
EM IsoPotConnOut em_ic IsoPotConnOut id [v]oltage - Voltage
[ch]arge - Charge
[cu]rrent - Current
[r]esd - Contact Resistance
[p]ower - Power
[e]nergy - Energy
EM RandlesCell em_rc RandlesCell id [to]tvoltage - TotVoltage
[o]cv - OCV
[d]ampvoltage - DampVoltage
[cu]rrent - Current
[so]c - SOC
[f]uncsoc - SOCFunc
[sh]iftsoc - SOCShift
[su]msoc - SOCSum
[r0] - R0
[r1]0 - R10
[c1]0 - C10
[te]mp - Temp
[ck]t_Number - Ckt Number
EM RandlesIntshortCell em_ri RandlesIntshortCell id [m]xr - Maximum resistance
[s]hc - Short circuits
[toc] - Total circuits
[tor] - Total resistance
[a]rs - Area short
EM RogoCoil em_ro RogoCoil id [v]c - Volume Current
[s]c - Surface Current
[m]f - Magnetic Field
EM Global em_gl Timestep id [ru]n - Run timestep
[cf]l - Condition timestep
[rb]c - Ratio
RandlesCellTot id [to]tvoltage - TotVoltage
[o]cv - OCV
[d]ampvoltage - DampVoltage
[cu]rrent - Current
[so]c - SOC
[f]uncsoc - SOCFunc
[sh]iftsoc - SOCShift
[su]msoc - SOCSum
[r0] - R0
[r1]0 - R10
[c1]0 - C10
[te]mp - Temp
[vc2] - VC2
[vc3] - VC3
[r2]0 - R20
[r3]0 - R30
[c2]0 - C20
[c3]0 - C30
randlesCellTotEn id [ohp] - Ohm Heat Power
[rhp] - Reversible Heat Power
[ecp] - Equivalent Capacity Power
[ohe] - Ohm heat energy
[rhe] - Reversible heat energy
[ece] - Equivalent Capacity energy
[es]e - Equivalent storage energy
GlobEnergy id [ecj]h - Ext ckt Joule Heating
[ecm]e - Ext ckt Magnetic Energy
[ecc]e - Ext ckt Capacitor Energy
[mj]h - Mesh conductor Joule Heating
[mm]e - Mesh conductor Mag Energy
[a]me - Air Magnetic Energy
[te]e - Total EM Energy
[tp]e - Total Plastic Energy
[tk]e - Total kinetic Energy
RandlesIntshort id [ms]r - Maximum short resistance
[n]sc - Number of short circuits
[tn]c - Total number of circuits
[tsr] - Total short resistance
RandlesIntshortTot id [tm]r - Maximum resistance
[tsc] - Short circuits
[ttc] - Total circuits
[ttr] - Total resistance
[ta]s - Area short
FSI FSI FSI id [pr]essure - pressure
[f]orce x X force
y Y force
z Z force
m Force Magnitude
[po]rous - Porous Leakage
[m]ass - Mass Flux
ICFD Drag icfd_dr Part id / -1 for average / 0 for sum or if only one part [dra]g px X Pressure Drag
py Y Pressure Drag
pz Z Pressure Drag
pm Pressure Drag Magnitude
vx X Viscous Drag
vy Y Viscous Drag
vz Z Viscous Drag
vm Viscous Drag Magnitude
pmx MX Pressure Drag
pmy MY Pressure Drag
pmz MZ Pressure Drag
pmm Pressure Drag Moment Magnitude
vmx MX Viscous Drag
vmy MY Viscous Drag
vmz MZ Viscous Drag
vmm Viscous Drag Moment Magnitude
ICFD Node or Point icfd_nd / icfd_pt Node / Point id [c]oord x Current X coord
y Current Y coord
z Current Z coord
m Current Vector
[ve]locity x X Velocity
y X Velocity
z Z Velocity
m Velocity Magnitude
[vo]rticity x X Vorticity
y Y Vorticity
z Z Vorticity
m Vorticity Magnitude
[d]ensity - Density
[pr]essure - Pressure
[t]emperature - Temperature
ICFD Temp icfd_th Part id / 0 for sum or if only one part [t_a]rea average Temperature Area Average
[t_s]um average Temperature Sum Average
[he]at flux Average Heat Flux
[tot]al area Total Area
[ht]c - Heat Transfer Coefficient
Joint Joi Joint id [f]orce x X force
y Y force
z Z force
m Force Magnitude
[m]oment x Moment in X
y Moment in Y
z Moment in Z
m Moment Magnitude
*CONSTRAINED_JOINT_STIFFNESS_GENERALIZED
[ph]i an Phi angle
dt d(Phi)/dt
st Phi stiffness moment
da Phi damping moment
to Phi total moment
[th]eta an Theta angle
dt d(Theta)/dt
st Theta stiffness moment
da Theta damping moment
to Theta total moment
[ps]i an Psi angle
dt d(Psi)/dt
st Psi stiffness moment
da Psi damping moment
to Psi total moment
[ge]neralized en Total joint energy
*CONSTRAINED_JOINT_STIFFNESS_FLEXION-TORSION
[al]pha an Alpha angle
dt d(Alpha)/dt
st Alpha stiffness moment
da Alpha damping moment
to Alpha total moment
[be]ta an Beta angle
dt d(Beta)/dt
st Beta stiffness moment
da Beta damping moment
to Beta total moment
[ga]mma an Gamma angle
dt d(Gamma)/dt
fa Gamma scale factor
[fl]exion en Total joint energy
Joint Joi Joint id *CONSTRAINED_JOINT_STIFFNESS_TRANSLATIONAL
[tr]anslational xd X displacement
dxd d(X)/dt
yd Y displacement
dyd d(Y)/dt
zd Z displacement
dzd d(Z)/dt
xsf X stiffness
xdf X damping
xtf X total
ysf Y stiffness
ydf Y damping
ytf Y total
zsf Z stiffness
zdf Z damping
ztf Z total
en Total joint energy
*CONSTRAINED_JOINT_STIFFNESS_CYLINDRICAL
[cy]lindrical pd P displacement
dpd d(P)/dt
rd R displacement
dyd d(Y)/dt
zd Z displacement
dzd d(Z)/dt
psf P stiffness
pdf P damping
ptf X total
rsf R stiffness
rdf R damping
rtf R total
zsf Z stiffness
zdf Z damping
ztf Z total
en Total joint energy
Node No Node id [te]mperature x Temperature
[to]p temperature Top Surface Temperature
[bo]ttom temperature Bottom Surface Temperature
[d]isplacement x X Displacement
y Y Displacement
z Z Displacement
m Displacement Magnitute
[v]elocity x X Velocity
y Y Velocity
z Z Velocity
m Velocity Magnitute
[a]cceleration x X Acceleration
y Y Acceleration
z Z Acceleration
m Acceleration Magnitude
[c]oord x Current X coord
y Current Y coord
z Current Z coord
m Current Vector
[b]asic x Basic X coord
y Basic Y coord
z Basic Z coord
m Basic Vector
[r]otation x X rotation
y Y rotation
z Z rotation
m Rotation Magnitude
vx X rotational velocity
vy Y rotational velocity
vz Z rotational velocity
vm Rotation Vel Magnitude
ax X rotational acceleration
ay Y rotational acceleration
az Z rotational acceleration
am Rotation Accel Magnitude
force x X force
y Y force
z Z force
m Force Magnitude
[e]nergy - Energy
Node Group Ng Group id force x X force
y Y force
z Z force
m Force Magnitude
Part Pa Part id [k]inetic e - Kinetic energy
[i]nternal e - Internal energy
[h]ourglass e - Hourglass energy
[t]otal e - Total energy
[mx] - X momentum
[my] - Y momentum
[mz] - Z momentum
[x] velocity - Average X velocity
[y] velocity - Average Y velocity
[z] velocity - Average Z velocity
[am] - Added mass
[ma]
-​Mass
[ek] - Eroded Kinetic energy
[ei] - Eroded Internal energy
Part group Gro Group id [k]inetic e - Kinetic energy
[i]nternal e - Internal energy
[h]ourglass e - Hourglass energy
[t]otal e - Total energy
[am] - Added mass
Particle Blast Pbl PBlast id [a]ir ie Air Internal Energy
[d]etprod ie Detn Product Internal Energy
[o]ut ie Outside Domain Internal Energy
[a]ir te Air Translational Energy
[d]etprod te Detn Product Translational Energy
[o]ut te Outside Domain Translational Energy
Particle Blast Part Pbp Part id [a]ir pr Air Pressure
[d]etprod pr Detn Product Pressure
[r]es pr Resultant Pressure
[ar]ea - Surface Area
[a]ir x Air X Force
[a]ir y Air Y Force
[a]ir z Air Z Force
[d]etprod x Detn Product X Force
[d]etprod y Detn Product Y Force
[d]etprod z Detn Product Z Force
[r]es x Resultant X Force
[r]es y Resultant Y Force
[r]es z Resultant Z Force
Pressure Tube Prt Node id [ar]ea - Cross Section Area
[de]nsity - Density
[pr]essure - Pressure
[v]elocity - Velocity
Pulleys Pul Pulley id [fo]rce - Force
[sl]ip - Slip
[ra]te - Slip Rate
[an]gle - Wrap Angle
Retractor Ret Retractor id [fo]rce - Force
[p]ullout - Pullout
[fvp] - Force v Pullout
Rigid wall Rig / Wall Wall id [n]ormal force - Normal force
[x] force - Global X force
[y] force - Global Y force
[z] force - Global Z force
[e]nergy - Energy
Rigid wall Segment Rigid_seg Wall id Segment id [x] force Global X force
[y] force Global Y force
[z] force Global Z force
Rigid part / NRB rpa / nrb Part id [d]isplacement x X Displacement
y Y Displacement
z Z Displacement
m Displacement Magnitude
[v]elocity x X Velocity
y Y Velocity
z Z Velocity
m Velocity Magnitude
[a]cceleration x X Acceleration
y Y Acceleration
z Z Acceleration
m Acceleration Magnitude
[c]oord x X coord
y Y coord
z Z coord
[r]otation x X rotation
y Y rotation
z Z rotation
m Rotation Magnitude
vx X rotational velocity
vy Y rotational velocity
vz Z rotational velocity
vm Rotation Vel Magnitude
ax X rotational acceleration
ay Y rotational acceleration
az Z rotational acceleration
am Rotation Accel Magnitude
Rigid part / NRB rpa / nrb Part id [dc]os 11 Direction Cosine 11
12 Direction Cosine 12
13 Direction Cosine 13
21 Direction Cosine 21
22 Direction Cosine 22
23 Direction Cosine 23
31 Direction Cosine 31
32 Direction Cosine 32
33 Direction Cosine 33
[ld]isplacement (local) x Local X Displacement
y Local Y Displacement
z Local Z Displacement
[lv]elocity (local) x Local X Velocity
y Local Y Velocity
z Local Z Velocity
[la]cceleration (local) x Local X Acceleration
y Local Y Acceleration
z Local Z Acceleration
[lr]otation (local) x Local X rotation
y Local Y rotation
z Local Z rotation
vx Local X rotational vel
vy Local Y rotational vel
vz Local Z rotational vel
ax Local X rotational accel
ay Local Y rotational accel
az Local Z rotational accel
Seat belt Sea / Bel Belt id [fo]rce - Force
[s]train - Strain
[fvs] - Force v Strain
[l]ength - Current Length
Shell Sh Shell id [stre]ss xx Stress in XX
yy Stress in YY
zz Stress in ZZ
xy Stress in XY
yz Stress in YZ
zx Stress in ZX
mx MAX principal stress
mn MIN principal stress
ms MAX shear stress
vm von Mises stress
av Average stress (Pressure)
[stra]in xx Strain in XX
yy Strain in YY
zz Strain in ZZ
xy Strain in XY
yz Strain in YZ
zx Strain in ZX
ma MAX principal strain
mi MIN principal strain
sh MAX shear strain
vm von Mises strain
av Average strain
[pla]stic ef Effective plastic strain
[m]oment x Moment in X
y Moment in Y
xy Moment in XY
[f]orce sx Shear force in X
sy Shear force in Y
nx Normal force in X
ny Normal force in Y
nxy Normal force in XY
[t]hickness - Thickness
[i]nternal - Internal energy density
[e]xtra ## Extra data ##
Slipring Slp Slipring id [p]ullout - Pull through
[w]arp - Warp Angle
[s]kew - Skew Angle
[f]riction - Friction Coefficient
[n]ormal - Normal Force
belt1 - Side 1 Belt Force
belt2 - Side 2 Belt Force
Solid So Solid id [stre]ss xx Stress in XX
yy Stress in YY
zz Stress in ZZ
xy Stress in XY
yz Stress in YZ
zx Stress in ZX
mx MAX principal stress
mn MIN principal stress
ms MAX shear stress
vm von Mises stress
av Average stress (Pressure)
[stra]in xx Strain in XX
yy Strain in YY
zz Strain in ZZ
xy Strain in XY
yz Strain in YZ
zx Strain in ZX
ma MAX principal strain
mi MIN principal strain
sh MAX shear strain
vm von Mises strain
av Average strain
[pla]stic ef Effective plastic strain
[e]xtra ## Extra data ##
SPC SPC SPC id [f]orce x X force
y Y force
z Z force
m Force Magnitude
[m]oment x Moment in X
y Moment in Y
z Moment in Z
m Moment Magnitude
SPH SPH SPH id [d]ensity - Density
[stra]in xx Strain in XX
yy Strain in YY
zz Strain in ZZ
xy Strain in XY
yz Strain in YZ
zx Strain in ZX
[stre]ss ef Effective Stress
xx Stress in XX
yy Stress in YY
zz Stress in ZZ
xy Stress in XY
yz Stress in YZ
zx Stress in ZX
[l]ength - Smoothing Length
Spotweld Sw Spotweld id [co]nstrained [a]xial Axial force
[s]hear Shear force
[l]ength Length
[f]ailure Failure (failed if > 1.0)
[ma]ximum Maximum failure value
[t]ime Failure Time
[ge]neralised [a]xial Axial force
[s]hear Shear force
[l]ength Length
[f]ailure Failure (failed if > 1.0)
[ma]ximum Maximum failure value
[t]ime Failure Time
[sp]otweld [a]xial Axial force
[s]hear Shear force
[l]ength Length
[f]ailure Failure (failed if > 1.0)
[ma]ximum Maximum failure value
[t]ime Failure Time
[m]oment Resultant Moment
[to]rsion Torsion
[so]lid [a]xial Axial force
[s]hear Shear force
[l]ength Length
[f]ailure Failure (failed if > 1.0)
[ma]ximum Maximum failure value
[t]ime Failure Time
[m]oment Resultant Moment
[to]rsion Torsion
ff DC Failure Function
nf Normal Failure Term
sf Shear Failure Trem
bf Bending Failure Term
[ar]ea Spotweld Area
[no]n-local [a]xial Axial force
[s]hear Shear force
[l]ength Length
[f]ailure Failure (failed if > 1.0)
[ma]ximum Maximum failure value
[t]ime Failure Time
[ass]embly [a]xial Axial force
[s]hear Shear force
[l]ength Length
[f]ailure Failure (failed if > 1.0)
[m]oment Resultant Moment
[to]rsion Torsion
[t]ime Failure Time
ff DC Failure Function
nf Normal Failure Term
sf Shear Failure Trem
bf Bending Failure Term
[ar]ea Spotweld Area
Spring Sp / Da Spring id [f]orce - Force
[e]longation - Elongation
[fve] - Force v Elongation
[en]ergy - Energy
[m]oment - Moment
[r]otation - Rotation
[mvr] - Moment v Rotation
[x] force - Global X force
[y] force - Global Y force
[z] force - Global Z force
[mx] - Moment in X
[my] - Moment in Y
[mz] - Moment in Z
[re]nergy - Rotational Energy
Subsystem Ss Subsystem id [k]inetic e - Kinetic Energy
[i]nternal e - Internal Energy
[h]ourglass e - Hourglass energy
[[kr] - Kinetic Energy Ratio
[ir] - Internal Energy Ratio
[mx] - X Momentum
[my] - Y Momentum
[mz] - Z Momentum
[masst] - Total Mass
[massc] - Center of Mass
[massx] - X Center of Mass
[massy] - Y Center of Mass
[massz] - Z Center of Mass
[it11] - Inertia Tensor Row11
[it12] - Inertia Tensor Row12
[it13] - Inertia Tensor Row13
[it21] - Inertia Tensor Row21
[it22] - Inertia Tensor Row22
[it23] - Inertia Tensor Row23
[it31] - Inertia Tensor Row31
[it32] - Inertia Tensor Row32
[it33] - Inertia Tensor Row33
[pi1] - Principal Inertia I11
[pi2] - Principal Inertia I22
[pi3] - Principal Inertia I33
[pd11] - Principal Directions Row11
[pd12] - Principal Directions Row12
[pd13] - Principal Directions Row13
[pd21] - Principal Directions Row21
[pd22] - Principal Directions Row22
[pd23] - Principal Directions Row23
[pd31] - Principal Directions Row31
[pd32] - Principal Directions Row32
[pd33] - Principal Directions Row33
Thick Shell Thi / Tsh Tshell id [stre]ss xx Stress in XX
yy Stress in YY
zz Stress in ZZ
xy Stress in XY
yz Stress in YZ
zx Stress in ZX
mx MAX principal stress
mn MIN principal stress
ms MAX shear stress
vm von Mises stress
av Average stress (Pressure)
[stra]in xx Strain in XX
yy Strain in YY
zz Strain in ZZ
xy Strain in XY
yz Strain in YZ
zx Strain in ZX
ma MAX principal strain
mi MIN principal strain
sh MAX shear strain
vm von Mises strain
av Average strain
[pla]stic ef Effective plastic strain
[e]xtra ## Extra data ##
TRACERS Tr Tracer ID [d]isplacement x Current X coord
y Current Y coord
z Current Z coord
m Current Vector
[v]elocity x X Velocity
y Y Velocity
z Z Velocity
m Velocity Magnitute
[stre]ss xx Stress in XX
yy Stress in YY
zz Stress in ZZ
xy Stress in XY
yz Stress in YZ
zx Stress in ZX
EFP -  
(de)nsity - Density
rvol - Relative Volume
ac[tive] - Active
Whole model Wh - [dt] - Time step
[k]inetic e - Kinetic energy
[i]nternal e - Internal energy
[sw] - Stonewall energy
[j]oint e - Joint internal energy
[sp]ring e - Spring and damper energy
[h]ourglass e - Hourglass energy
[sy]stem e - System damping energy
[si] - Sliding interface energy
[ew] - External work
[rb] - Rigid Body stopper energy
[t]otal e - Total energy
[er] - Total/initial energy
[x] velocity - Average X velocity
[y] velocity - Average Y velocity
[z] velocity - Average Z velocity
[cy]cle time - Time per zone cycle
[am] --- Added mass
[pm] - %age Mass increase
[ek] - Eroded Kinetic energy
[ei] - Eroded Internal energy
[eh] - Eroded Hourglass energy
[ewoe] - Energy Ratio w/o Eroded
[m]ass - Mass
[mpe] - Mat Plastic Energy
[mee] - Mat Elastic Energy
[mde] - Mat Damage Energy
[die] - Dissipation Internal Energy
[dke] - Dissipation Kinetic Energy
[de] - Drilling Energy


7.4.5.1 Defining Surfaces / Integration points for data extraction

Some data components can be written out at multiple locations.

 

In recent versions of Ansys LS-DYNA it is possible for each element to write out multiple values for some data components.

For fully integrated Shells and Thick Shells values can be written out for all 4 in-plane integration points in each through thickness location. In addition to the integration point values it is also possible to write out data that has been extrapolated from the integration points out to the shells nodes.

For fully integrated solid elements data can also be written out for all 8 integration points and values can also be extrapolated to the elements nodes.

To select these additional values the entity ID's specified in a FAST-TCF scripts can be modified as follows.

 

Solids n Average value for solid (default)
n@X Value at integration point X ( 0 < X < 8)
n@-X Value at node X ( 0 < X < 8)
Shells n Average value for shell (default)
n@X Value at integration point X ( 0 < X < 4)
n@-X Value at node X ( 0 < X < 4)
Shells
n Average value for thick shell (default)
n@X Value at integration point X ( 0 < X < 4)
n@-X Value at node X ( 0 < X < 8)

 

e.g. solid 10
  (solid 10 - average value)
  solid 20@5
  (solid 20 - data from 5th integration point)
  shell 20@-3
  (shell 20 - data extrapolated to shells 3rd node)

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