📄 lsdyna.data1
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lsdmpg.3 521
521 %(Damping scale factors)
[stx] Scale factor - x translational damping for
ces
[sty] Scale factor - y translational damping for
ces
[stz] Scale factor - z translational damping for
ces
[srx] Scale factor - x rotational damping forces
[sry] Scale factor - y rotational damping forces
[srz] Scale factor - z rotational damping forces
521.1 1774
521.2 1774
521.3 1774
521.4 1774
521.5 1774
521.6 1774
lsdmpm %(Material Mass Damping)
[dmpid] Material (Part) ID
[lcid] Load curve ID number
[lcsf] Load curve scale factor
[icflg] Flag for componentwise scaling
[ ] Scale Factors
lsdmpm.1 mtrl
lsdmpm.2 load
lsdmpm.3 fact
lsdmpm.4 offon
lsdmpm.5 521
lsdmps %(Material Rayleigh Stiffness Damping)
[idstf] Material (Part) ID
[drayl] Rayleigh stiffness damping coefficient
lsdmps.1 mtrl
lsdmps.2 1577
lsdmpr %(Relative Damping)
[cdamp] Fraction of critical damping
[frq] Frequency at which to apply critical dampi
ng
[pidrb] Part ID of the rigid body
[psid] Part set ID
lsdmpr.1 frac
lsdmpr.2 freq
lsdmpr.3 mtrl
lsdmpr.4 setid
507 %(List up to 48 values for each curve)
[ea] List Of Orthotropic Constants Ea
[eb] List Of Orthotropic Constants Eb
[ec] List Of Orthotropic Constants Ec
[vba] List Of Orthotropic Constants vba
[vca] List Of Orthotropic Constants vca
[vcb] List Of Orthotropic Constants vcb
[aa] List Of Orthotropic Constants alpha_a
[ab] List Of Orthotropic Constants alpha_b
[ac] List Of Orthotropic Constants alpha_c
[gab] List Of Orthotropic Constants Gab
[gbc] List Of Orthotropic Constants Gbc
[gca] List Of Orthotropic Constants Gca
[t] List Of Temperatures
507.1 508
507.2 509
507.3 510
507.4 511
507.5 512
507.6 513
507.7 514
507.8 515
507.9 516
507.10 517
507.11 518
507.12 519
507.13 520
508 ##(List Up to 48 Ea Constants) >|
509 ##(List Up to 48 Eb Constants) >|
510 ##(List Up to 48 Ec Constants) >|
511 ##(List Up to 48 vba Constants) >|
512 ##(List Up to 48 vca Constants) >|
513 ##(List Up to 48 vcb Constants) >|
514 ##(List Up to 48 alpha_a Constants) >|
515 ##(List Up to 48 alpha_b Constants) >|
516 ##(List Up to 48 alpha_c Constants) >|
517 ##(List Up to 48 Gab Constants) >|
518 ##(List Up to 48 Gbc Constants) >|
519 ##(List Up to 48 Gca Constants) >|
520 ##(List Up to 48 Temperature Constants) >|
524 # x :|
525 # y :|
526 # z :|
527 # rho-coordinate :|
528 # theta-coordinate :|
529 # z-coordinate :|
601 %[ea] Constitutive Matrix Coefficient Ea
[eb] Constitutive Matrix Coefficient Eb
[ec] Constitutive Matrix Coefficient Ec
[prba] Constitutive Matrix Coefficient vba
[prca] Constitutive Matrix Coefficient vca
[prcb] Constitutive Matrix Coefficient vcb
[gab] Constitutive Matrix Coefficient Gab
[gbc] Constitutive Matrix Coefficient Gbc
[gca] Constitutive Matrix Coefficient Gca
601.1 611
601.2 612
601.3 613
601.4 614
601.5 615
601.6 616
601.7 617
601.8 618
601.9 619
604 %(Coordinates of a Point In Space)
[xp] x-coordinate of a point in space
[yp] y-coordinate of a point in space
[zp] z-coordinate of a point in space
604.1 606
604.2 607
604.3 608
609 # E :|
610 # v :|
611 # Ea :|
612 # Eb :|
613 # Ec :|
614 # vba :|
615 # vca :|
616 # vcb :|
617 # Gab :|
618 # Gbc :|
619 # Gca :|
622 # sigy :|
624 # beta :|
627 %[temp] Temperature
[e] Young's Modulus
[pr] Poisson's Ratio
[alpha] Secant Coefficient Of Thermal Expansion
[sigy] Yield Stress
[etan] Plastic Hardening Modulus
627.1 628
627.2 629
627.3 630
627.4 631
627.5 632
627.6 633
628 ##(List Of Temperatures - between 2 & 8
values) >|
629 ##(List Of Young's Modulus - 1 per
temperature) >|
630 ##(List Of Poisson's Ratios - 1 per
temperature) >|
631 ##(List Of Coefficients - 1 per
temperature) >|
632 ##(List Of Yield Stresses - 1 per
temperature) >|
633 ##(List Of Plastic Hardening Modulus - 1 per
temperature) >|
821 ##(List Of Strength Coefficients - 1 per
temperature) >|
822 ##(List Of Hardening Exponents - 1 per
temperature) >|
635 # shear modulus :|
636 # Ku :|
637 # a0 :|
638 # a1 :|
639 # a2 :|
640 # pc :|
642 ##(List Of Up to 10 Volumetric Strains) >|
643 ##(List Of Up to 10 Pressures) >|
645 # K :|
646 # G-0 :|
647 # G-infinity :|
650 # Ea :|
651 # Eb :|
652 # Ec :|
656 # alpha_a :|
657 # alpha_b :|
658 # alpha_c :|
659 # Gab :|
660 # Gbc :|
661 # Gca :|
672 # rho :|
674 # shear :|
677 # thickness :|
680 %[shear] Shear Factor
[tsti] Through Shell Thickness Integration
Points
[propt] Shell Printout Option
[ ] Quadrature Rule
[shloc] Reference Surface Location
680.1 674
680.2 681
680.3 682
680.4 1105
680.5 683
685 %[shear] Shear Factor
[tsti] Through Shell Thickness Integration
Points
[propt] Shell Printout Option
[ ] Quadrature Rule
685.1 674
685.2 681
685.3 682
685.4 1105
681 # number of integration points :|
682 $[1] Average Resultants & Fiber Lengths
[2] Resultants at Plan Points & Fiber Lengths
[3] Resultants, Stresses at All Points &
Fiber Lengths
683 $[1] Top Surface[0] Middle Surface[-1] Bottom
Surface
684 #(Material Number) :|
793 # yield :|
794 # height :|
795 # x :|
796 # y :|
797 # z :|
798 # time :|
802 # load curve number :|
815 # factor :|
818 # coefficient :|
820 # coefficient :|
1091 %(Options)
[ ] Add Erosion
1091.1 erodef
lsmat $(Choose a Material Type)
[1 STRUCT] Elastic
[1 FLUID] Elastic Fluid
[2 ORTHO] Orthotropic Elastic
[2 ANISO] Anisotropic Elastic
[3] Kinematic/Isotropic Elastic-Plastic
[4] Thermo-Elastic-Plastic
[5] Soil And Crushable Foam
[6] Linear Viscoelastic
[7] Blatz-Ko Rubber
[8] High Explosive Burn
[9] Null (hydrodynamic w/o deviatoric stress)
[10] Isotropic ElastoPlastic Hydrodynamic
[11] Steinberg-Guinan Thermal ElastoPlastic
Hydrodynamic
[12] Isotropic ElastoPlastic
[13] Isotropic ElastoPlastic With Failure
[14] Soil And Crushable Foam With Failure
[15] Johnson/Cook Plasticity
[16] Pseudo TENSOR Concrete/Geological Model
[17] ElastoPlastic With Oriented Crack
[18] Power Law Isotropic Plasticity
[19] Strain Rate Dependent Plasticity
[20] Rigid
[21] Thermal Orthotropic w/ 12 Constants
[22] Fiber Composite w/ Damage
[23] Temperature Dependent Thermal Orthotropic
w/ 12 Curves
[24] Rate-Dependent Tabular Isotropic Plasticity
[25] Inviscid, Two Invariant Geologic Cap
[26] Orthotropic Crushable Honeycomb
[27] Compressible Mooney-Rivlin Hyperelastic
Rubber
[28] Resultant Plasticity
[29] Force Limited Resultant Formulation for
Beams
[30] Closed-Form Update Plasticity Shell
[31] Slightly Compressible Rubber Model
[32] Laminated Glass Model
[33] Barlat's Anisotropic Plasticity Model
[34] Fabric Model
[35] Kinematic/Isotropic Elastic-Plastic
Green-Naghdi Rate Model
[36] Barlat's 3-Parameter Plasticity Model
[37] Transversely Anisotropic Elastic-Plastic
[38] Blatz-Ko Compressible Foam
[39] Transversely Anisotropic Elastic-Plastic
with FLD
[40] Nonlinear Elastic Orthotropic Material
[41] User-Defined Material Model #41
[42] User-Defined Material Model #42
[43] User-Defined Material Model #43
[44] User-Defined Material Model #44
[45] User-Defined Material Model #45
[46] User-Defined Material Model #46
[47] User-Defined Material Model #47
[48] User-Defined Material Model #48
[49] User-Defined Material Model #49
[50] User-Defined Material Model #50
[51] Bamman Model (Temp. and Rate Dependent Plasticity)
[52] Bamman Model with Damage
[53] Sandia's Low Density Closed Cell Polyurethane Foam
[54] Composite Damage Model (Chang matrix
failure)
[55] Composite Damage Model (Tsai-Wu matrix
failure)
[57] Low Density Urethane Foam
[59] Composite Failure Model - Plasticity Based
[60] Elastic with Viscosity
[61] Maxwell/Kelvin Viscoelastic with Maximum
Strain
[62] Viscous Foam, Ove Arup & Partners Model
[63] Crushable Foam
[64] Strain Rate Sensitive Power-Law Plasticity
[65] Modified Zerilli/Armstrong
[66] Linear Stiffness/Linear Viscous 3D Discrete
Beam
[67] Nonlinear Stiffness/Viscous 3D Discrete
Beam
[68] Nonlinear Plastic/Linear Viscous 3D
Discrete Beam
[69] Side Impact Dummy Damper, SID Damper
[70] Hydraulic/Gas Damper Model
[71] Cable Model
[72] Concrete Damage Model
[73] Low Density Viscoelastic Foam
[75] Bikhu/Dubois Foam Model
[76] General Viscoelastic
[77] Hyperviscoelastic Rubber
[78] Solid/Concrete
[79] Hysteretic Soil
[80] Ramberg-Osgood Plasticity
[81] Plastic with Damage
[83] Fu-Chang's Foam with Rate Effects
[86] Orthotropic-Viscoelastic
[87] Cellular Rubber
[88] Mechanical Threshold Stress
[90] Acoustic
[96] Brittle Damage
[100 beam elfom spw] Spot Weld
[103] Anisotropic Viscoplastic
[126] Metallic Honeycomb
[134] Viscoelastic Fabric
lsmat.1 1092 1107 1
lsmat.2 1092 1107a 1
lsmat.3 1407 601 1462 2
lsmat.4 1407 cmat aniso 1462 2
lsmat.5 1092b 1112 3
lsmat.6 1427 627 4
lsmat.7 1404 1113 5
lsmat.8 eos 1422 1121 6
lsmat.9 eos 1175 1114 7
lsmat.10 eos 1438 1115 3001 8
lsmat.11 eos 1430 1118 9
lsmat.12 1404 1125 10
lsmat.13 1404 1129 1144 1147 1151 11
lsmat.14 1407 1153 12
lsmat.15 eos 1404 1155 3007 13
lsmat.16 eos 1404 1113 14
lsmat.17 eos 1175 1163 15
lsmat.18 1404 1187 1185 1186 16
lsmat.19 1404 1202 17
lsmat.20 1430 1204 18
lsmat.21 1407 1205 19
lsmat.22 1425 1206 pbm15 1006 20
lsmat.23 1407 1210 1330 21
lsmat.24 1407 1290 22
lsmat.25 1407 1859 507 23
lsmat.26 1427 1298 24
lsmat.27 1404 1299 25
lsmat.28 1404 1313 26
lsmat.29 1175 1315 1440 27
lsmat.30 1409 1318 28
lsmat.31 bsb 1428 1345 1443 bten 1445 29
lsmat.32 1320 1319 30
lsmat.33 1404 1501 31
lsmat.34 1320 1518 32
lsmat.35 1407 1524 33
lsmat.36 1455 1536 34
lsmat.37 1404 1547 35
lsmat.38 1455 1551 36
lsmat.39 1320 1558 37
lsmat.40 1175 1560 38
lsmat.41 1320 1562 39
lsmat.42 1455 1563 40
lsmat.43 1093 1847 1578 41
lsmat.44 1093 1847 1578 42
lsmat.45 1093 1847 1578 43
lsmat.46 1093 1847 1578 44
lsmat.47 1093 1847 1578 45
lsmat.48 1093 1847 1578 46
lsmat.49 1093 1847 1578 47
lsmat.50 1093 1847 1578 48
lsmat.51 1093 1847 1578 49
lsmat.52 1093 1847 1578 50
lsmat.53 1320 1595 51
lsmat.54 1320 1622 52
lsmat.55 1404 1623 53
lsmat.56 1455 1630 54
lsmat.57 1455 1630 55
lsmat.58 1404 1652 57
lsmat.59 1175 1674 1856 59
lsmat.60 1404 1686 60
lsmat.61 1404 1693 61
lsmat.62 1404 1700 62
lsmat.63 1404 1704 63
lsmat.64 1404 1705 64
lsmat.65 1404 1712 65
lsmat.66 dis1 1457 1460 1783 1733 66 - DISCRETE BEAM
lsmat.67 dis1 1457 1458 1460 1783 1736 67 - DISCRETE BEAM
lsmat.68 dis1 1457 1458 1460 1783 1737 68 - DISCRETE BEAM
lsmat.69 dis1 1457 1458 1460 1783 1750 69 - DISCRETE BEAM
lsmat.70 dis1 1457 1460 1783 1766 70 - DISCRETE BEAM
lsmat.71 dis1 1457 1459 1460 1783 1775 71 - DISCRETE BEAM
lsmat.72 1404 1484 72 - Concrete Damage Model
lsmat.73 1404 1485 73 - Low Density Viscoelastic Foam
lsmat.74 1404 1776 75
lsmat.75 1175 1486 76 - General Viscoelastic
lsmat.76 1404 1487 77 - Hyperviscoelastic Rubber
lsmat.77 1404 1488 1846 78 - Solid/Concrete
lsmat.78 1404 1489 79 - Hysteretic Soil
lsmat.79 1404 1490 80 - Ramberg-Osgood Plasticity
lsmat.80 1320 1491 81 - Plastic with Damage
lsmat.81 1404 1492 83 - Fu-Chang Foam w/ Rate Effects
lsmat.82 1455 1493 86 - Orthotropic-Viscoelastic
lsmat.83 1404 1494 1852 87 - Cellular Rubber
lsmat.84 1175 1495 88 - Mechanical Threshold Stress
lsmat.85 1404 1496 90 - Acoustic
lsmat.86 1404 1497 96 - Brittle Damage
lsmat.87 1781 1094 1779 100
lsmat.88 1175 1498 1834 1838 1330 103 - Anisotropic Viscoplastic
lsmat.89 1404 1499 126 - Metallic Honeycomb
lsmat.90 1455 1500 134 - Viscoelastic Fabric
erodef $[excl] Exclusion Number
[pfail] Failure Pressure
[sigp1] Failure Principal Stress
[sigvm] Failure Equivalent Stress
[epsp1] Failure Principal Strain
[epssh] Failure Shear Strain
[sigth] Threshold Stress
[impulse] Failure Stress Impulse
erodef.1 number
erodef.2 pressure
erodef.3 stress
erodef.4 stress
erodef.5 strain
erodef.6 strain
erodef.7 stress
erodef.8 impulse
eos #(Equation Of State Required (use LSDYEOS))
cmat ! CMAT !
comment #% >|
aniso #(Define the 6x6 anistropic constitutive
upper-triangular matrix)
c11:|
# c12:| c22:|
# c13:| c23:| c33:|
# c14:| c24:| c34:| c44:|
# c15:| c25:| c35:| c45:| c55:|
# c16:| c26:| c36:| c46:| c56:| c66:|
1092 %[nhead] Comment
[ ] Hourglass Stabilization
[ ] Element Class
[MIGL] Gravity Loading
[rho] Density
1092.1 comment newline
1092.2 1860
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