box.data1

Triangular mesh processing tool, currently very few people use this software, but it allows us to gr

  [SV] Sliding with Voids
  [DNI] Discrete Nodes Impacting Surface
209.1 149
210 $(ALE3D SLIDING INTERFACE TYPES)
  [TIED] Tied Sliding Surface
  [SL] Sliding Only
  [SV] Sliding with Voids
  [SINGLE] Single-Sided Slide Surface
  [DNI] Discrete Nodes Impacting Surface
  [DNT] Discrete Nodes tied to a Surface
  [SETS] Shell Edge tied to Shell Surface
  [NSW] Nodes Spot Welded
  [BREAK] Tie-Break Interface
  [OWSV] One-way Sliding with Voids
  [DUMMY] No Merging Of Nodes Only
  [SAND] Adaptive New Definitions - SAND
210.1 104 nsi1
210.2 104 nsi1
210.3 104 nsi1
210.4 104 nsi1
210.5 194
210.6 194
210.7 194
210.8 194
210.9 194
210.10 194
210.12 110 194
211 $(DYNA3D SLIDING INTERFACE TYPES)
  [TIED] Tied Sliding Surface
  [SL] Sliding Only
  [SV] Sliding with Voids
  [SINGLE] Single-Sided Slide Surface
  [DNI] Discrete Nodes Impacting Surface
  [DNT] Discrete Nodes tied to a Surface
  [SETS] Shell Edge tied to Shell Surface
  [NSW] Nodes Spot Welded
  [BREAK] Tie-Break Interface
  [OWSV] One-way Sliding with Voids
  [DUMMY] No Merging Of Nodes Only
  [SAND] Adaptive New Definitions - SAND
  [AUTO] Automatic Contact
  [REBAR] 1D Rebar
211.1 104 nsi1
211.2 104 nsi1
211.3 104 nsi1
211.4 104 nsi1
211.5 194
211.6 194
211.7 194
211.8 194
211.9 194
211.10 194
211.12 110 194
211.13 195
211.14 rb1
213 $(LS-NIKE3D SLIDING INTERFACE TYPE)
  [TIED] Tied Sliding Surface
  [SL] Sliding Only
  [SV] Sliding with Voids
  [SINGLE] Single-Sided Slide Surface
  [lsdsi 3] LS-DYNA Sliding, Impact, Friction
  [lsdsi 13] LS-DYNA Automatic Single Surface
213.1 104 nsi1
213.2 104 nsi1
213.3 104 nsi1
213.4 104 nsi1
213.5 lds51 lds52
213.6 lds51 lds52
214 $(NIKE3D SLIDING INTERFACE TYPE)
  [TIED] Tied Sliding Surface
  [SL] Sliding Only
  [SV] Sliding with Voids
  [SINGLE] Single-Sided Slide Surface
214.1 104 nsi1
214.2 104 nsi1
214.3 104 nsi1
214.4 104 nsi1
215 %(TOPAZ3D SLIDING INTERFACE TYPE)
  [concon] Thermal contact conductance
  [radcon] Thermal contact radiation
215.1 lds22
215.2 217
nsi1 %(NIKE3D options)
  [BWMRAD] Bandwidth Minimization Radius
  [PENMAX] Small penetration search distance
  [IAUG] Augmentation flag
  [ALTOLN] Normal direction convergence tolerance
  [ALTOLT] Tangential direction convergence
   tolerance
  [TKMULT] Tangent stiffness multiplier
  [DTIME] Interface death time
  [BURY] Interface burial time
nsi1.1 1390
nsi1.2 1072
nsi1.3 nsi2
nsi1.4 829
nsi1.5 829
nsi1.6 nis4
nsi1.7 798
nsi1.8 798
nsi2 $[ ] negative of the number of augmentations
   per step
  [0] no augmentations (penalty method)
  [1] augment until the convergence tolerance
   is satisfied
nsi2.1 nis3
nis3 # -augmentations :|
nis4 # multiplier :|
110 %[sms] Slave Materials[mms] Master Materials
110.1 128
110.2 128
128 ## list of material numbers >|
149 %(Interface Friction Parameters)
  [FRIC] (First) Friction Coefficient
  [FRIC2] Second Friction Coefficient
  [STIF] Stiffness In Stick
  [ESSL] Equivalent Shear Stress Limit
149.1 106
149.2 106
149.3 113
149.4 1331
111 #(MATERIAL FOR SPRINGS OR DAMPERS) sp
  ring/damper no.:|
sp1 $(Materials)
  [LE] Linear Elastic Stiffness
  [LV] Linear Viscous
  [IEP] Isotropic Elastoplastic
  [NE] Nonlinear Elastic
  [NESF] Nonlinear Elastic w/Force Load Curve
  [NV] Nonlinear Viscous
  [GN] General Tabulated Nonlinear
  [DHPT] Dashpot
  [MV] Three parameter Maxwell Viscoelastic
  [ITC] Inelastic Tension or Compression Only
  [MUS] Muscle
sp1.1 113
sp1.2 114
sp1.3 115
sp1.4 810
sp1.5 810 1420
sp1.6 810
sp1.7 116
sp1.8 197
sp1.9 1416 1417
sp1.10 1418 1419
sp1.11 1422
sp2 $[LE] Linear Elastic Stiffness
  [LV] Linear Viscous
  [IEP] Isotropic Elastoplastic
  [NE] Nonlinear Elastic
  [NESF] Nonlinear Elastic w/Force Load Curve
  [NV] Nonlinear Viscous
sp2.1 113
sp2.2 114
sp2.3 115
sp2.4 810
sp2.5 810 1420
sp2.6 810
sp3 $[LE] Linear Elastic Stiffness
  [LV] Linear Viscous
  [IEP] Isotropic Elastoplastic
  [NE] Nonlinear Elastic
  [NESF] Nonlinear Elastic w/Force Load Curve
  [NV] Nonlinear Viscous
  [GN] General Tabulated Nonlinear
sp3.1 113
sp3.2 114
sp3.3 115
sp3.4 810
sp3.5 810 1420
sp3.6 810
sp3.7 116
sp4 $[LE] Linear Elastic Stiffness
  [LV] Linear Viscous
  [IEP] Isotropic Elastoplastic
  [DHPT] Dashpot
sp4.1 113
sp4.2 114
sp4.3 115
sp4.4 197
sp5 # Elastic property value:|
  # Damping coefficient :|
  # Stress coefficient :|
sp6 $(Analysis Code)
  [ ]ANSYS
  [ ]DYNA3D
  [ ]LS-DYNA
  [ ]LS-NIKE3D
  [ ]MARC
  [SE]NASTRAN
  [ ]NIKE3D
sp6.1 sp4
sp6.2 sp3
sp6.3 1421 sp1
sp6.4 sp2
sp6.5 sp4
sp6.6 sp5
sp6.7 sp3
1416 # short time stiffness :|
  # long time stiffness :|
  # decay parameter :|
  # cut off time :|
  # force after cutoff time :|
1417 $[0.0] Incremental
  [1.0] Continuous
1418 # Force/Torque Load Curve :|
  # Unloading Stiffness :|
1419 $[-1.0] tension only
  [1.0] compression only
1420 # force load curve :|
1421 %(Optional Parameters)
  [DRO] Displacement/Rotation option
  [DMF] Dynamic magnification factor
  [TV] Test velocity
  [CL] Clearance
  [FD] Failure deflection
  [DLC] Deflection limit in compression
  [DLT] Deflection limit in tension
1421.1 1423
1421.2 799
1421.3 1116
1421.4 1424
1421.5 bd46
1421.6 bd46
1421.7 bd46
1422 # Initial muscle length:|
  # Maximum CE shortening velocity:|
  # Scale factor for Vmax vs. activs state:|
  # Activation level vs. time function:|
  # peak isometric force:|
  # Active tension vs. length function:|
  # Active tension vs. velocity function:|
  # Force vs. length function:|
  # Relative length:|
  # Exponential rise constant:|
1423 $[0] Linear spring/damper
  [1] Torsional Spring/Damper
1424 # clearance :|
1425 #% title :|
1426 %[nmhead] Material Title
1426.1 1425 newline
1427 %[E] Young's modulus
  [PR] Poisson's ratio
  [FT0] Tensile limit
  [FS0] Shear limit
  [GC] Fracture toughness
  [BETA] Shear retention
  [NU] Viscosity
1427.1 pm1mod
1427.2 pm1nu
1427.3 1428
1427.4 1428
1427.5 1429
1427.6 1430
1427.7 1431
1428 # limit:|
1429 # toughness:|
1430 # retention:|
1431 # viscosity:|
113 # stiffness :|
114 # damping :|
115 # elastic stiffness :|# tangent stiffness:|#
   yield :|
116 # loading curve no. :|# unloading curve no. :|
  # hardening :|# tension initial yield :|# compr
  ession initial yield :|
118 #(GLOBAL DEFAULT INITIAL TEMPERATURE) :|
119 #(SCALE COORDINATES OF FOLLOWING PARTS)
2124 # level number :|
2125 #(GLOBAL REPLICATION MATERIAL NUMBER INCREMEN
  T) material no. increment:|
2126 #(LOCAL REPLICATION MATERIAL NUMBER INCREMENT
  ) material no. increment:|
120 #(PERMUTE COORDINATES OF FOLLOWING PARTS)
   first index:|# second index:|#
2127 #(GLOBAL REPLICATION SLIDING INTERFACE NUMBER
   INCREMENT) sliding increment:|
2129 #(LOCAL REPLICATION SLIDING INTERFACE NUMBER
   INCREMENT) sliding increment:|
2130 $$[GREP] Select global coordinate
   transformations[ADD] Append transformations from
   another numbered LEV[PROD] Append a product of
   two sets of transformations from other numbere
  d LEVs[LEVCT] Define a set of transformations
2130.1 131 2130
2130.2 132 2130
2130.3 133 2130
2130.4 121 122 123 ; 2130
2131 # base temperature :|
131 ##(List the global transformation numbers) >|
132 # level number :|
133 #(Specify the two level numbers) level 1:|
  # level 2:|
134 #(LABELS END OF PSLV SCOPE)
135 #(REPLICATE PARTS WITH LEV TRANSFORMATIONS)
136 #(SCALE ALL X-COORDINATES OF FOLLOWING PARTS)
137 #(SCALE ALL Y-COORDINATES OF FOLLOWING PARTS)
138 #(SCALE ALL Z-COORDINATES OF FOLLOWING PARTS)
139 #(TRANSLATE ALL X-COORDINATES OF FOLLOWING PAR
  TS)
140 #(TRANSLATE ALL Y-COORDINATES OF FOLLOWING PAR
  TS)
141 #(TRANSLATE ALL Z-COORDINATES OF FOLLOWING PAR
  TS)
142 #(SLIDING INTERFACE NUMBER) :|
f1 #(Coordinates of The 1st Frame Origin)
f2 #(Coordinates of The 1st Frame x-Axis)
f3 #(Coordinates of The 1st Frame y-Axis)
f4 #(Coordinates of The 2nd Frame Origin)
f5 #(Coordinates of The 2nd Frame x-Axis)
f6 #(Coordinates of The 2nd Frame y-Axis)
f7 #(Coordinates of The New Origin)
f8 #(Coordinates of The New x-Axis)
f9 #(Coordinates of The New y-Axis)
g1 $[rt] Cartesian Coordinates
  [cy] Cylindrical Coordinates
  [sp] Spherical Coordinates
  [pt] Surface or Curve Point
g1.1 524 525 526
g1.2 20 958 526
g1.3 20 958 959
g1.4 216
g2 $[rt] Cartesian Coordinates
  [cy] Cylindrical Coordinates
  [sp] Spherical Coordinates
  [pt] Surface or Curve Point
g2.1 524 525 526
g2.2 20 958 526
g2.3 20 958 959
g2.4 216
g3 $[rt] Cartesian Coordinates
  [cy] Cylindrical Coordinates
  [sp] Spherical Coordinates
  [pt] Surface or Curve Point
g3.1 524 525 526
g3.2 20 958 526
g3.3 20 958 959
g3.4 216
g4 $[rt] Cartesian Coordinates
  [cy] Cylindrical Coordinates
  [sp] Spherical Coordinates
  [pt] Surface or Curve Point
g4.1 524 525 526
g4.2 20 958 526
g4.3 20 958 959
g4.4 216
g5 $[rt] Cartesian Coordinates
  [cy] Cylindrical Coordinates
  [sp] Spherical Coordinates
  [pt] Surface or Curve Point
g5.1 524 525 526
g5.2 20 958 526
g5.3 20 958 959
g5.4 216
g6 $[rt] Cartesian Coordinates
  [cy] Cylindrical Coordinates
  [sp] Spherical Coordinates
  [pt] Surface or Curve Point
g6.1 524 525 526
g6.2 20 958 526
g6.3 20 958 959
g6.4 216
216 #%(SURFACE/CURVE POINTS) List Point Identifie
  r:|
217 # radiation :|
381 $(Select the First Segment Type)
  [IGC] Begin With An IGES Curve
  [SDEDGE] Begin With An Edge Of A Surface
  [LP3] Begin With A 3D Polygonal Curve
  [CONTOUR] Begin With A Surface Contour
  [CSP3] Begin With a 3D Cubic Spline
  [BSP3] Begin With a B-Spline Curve
  [NRB3] Begin With NURBS Curve
  [LD2D3D] Begin With A 2D Curve
  [INTCUR] Begin With An Interpolated Curve
  [LP3PT] Begin With Surface/Curve Points
  [3DFUNC] Begin With A Parameterized Function
   Curve
  [PROJCUR] Begin By Projecting A 3D Curve To A
   Surface
  [PSCUR] Begin By Projecting A Curve To Surface
   And Smoothing
  [ARC3] Begin With An Arc Of A Circle
  [TWSURF] Begin By Intersecting Two Surfaces
  [CONTOUR] Begin With A Section of a 3D Curve
  [CPCD] Begin By Copying A Previously Defined 3D
   Curve
  [CPCDS] Begin By Copying A Set Of Previously
   Defined 3D Curves
381.1 287 250 ;
381.2 283
381.3 285 250 ;
381.4 286 250 ;
381.5 csp31 285 250 ;
381.6 bsp3k bsp3c ;
381.7 bsp3k bsp3w bsp3c ;
381.8 ld2d3d ld2d3e ld2d3f ld2d3g 250 ;
381.9 intcur1 250 ;
381.10 216 ; 250 ;1
381.11 191 155 ; 156 ;1 157 ;2 250 ;3
381.12 procur 250 ;
381.13 procur procur2 250 ;
381.14 arc1 954 957 955 960 956 961 250 ;
381.15 tws1 tws2 250 ;
381.16 286 250 ;
381.17 289 250 ;
381.18 290 250 ;
281 $[IGC] Append An IGES Curve
  [SDEDGE] Append An Edge Of A Surface
  [LP3] Append A 3D Polygonal Curve
  [CONTOUR] Append A Surface Contour
  [CSP3] Append a 3D Cubic Spline
  [BSP3] Append a B-Spline Curve
  [NRB3] Append a NURBS Curve
  [LD2D3D] Append A 2D Curve
  [INTCUR] Append An Interpolated Curve
  [LP3PT] Append Surface/Curve Points
  [3DFUNC] Append a Parameterized Function Curve
  [PROJCUR] Append a Curve Projected To a Surface
  [PSCUR] Append a Curve Projected To a Surface
   And Smoothed
  [ARC3] Append an Arc Of A Circle
  [TWSURF] Append an Intersection of Two Surfaces
  [CONTOUR] Append A Section of a 3D Curve
  [CPCD] Append A Previously Defined 3D Curve
  [CPCDS] Append A Set Of Previously Defined 3D
   Curves
281.1 287 250 ;
281.2 283
281.3 285 250 ;
281.4 286 250 ;
281.5 csp31 285 250 ;
281.6 bsp3k bsp3c ;
281.7 bsp3k bsp3w bsp3c ;
281.8 ld2d3d ld2d3e ld2d3f ld2d3g 250 ;
281.9 intcur1 250 ;
281.10 216 ; 250 ;1
281.11 191 155 ; 156 ;1 157 ;2 250 ;3
281.12 procur 250 ;
281.13 procur procur2 250 ;
281.14 arc1 954 957 955 960 956 961 250 ;
281.15 tws1 tws2 250 ;
281.16 286 250 ;
281.17 289 250 ;
281.18 290 250 ;
282 $$[ ]Append Another Segment (Optional)
282.1 281 282
283 # surface.edge identification :|
284 # 3D curve definition number :|
285 ##(List Of Coordinate Triplets)
   x1 y1 z1 ... xn yn zn >|
286 #%(SURFACE/CURVE ENDPOINTS) First Point Identi
  fier :|
  #%  Last Point Identifier :|
287 # IGES curve sequence number :|
288 ##(List Of Coordinate Pairs)
   x1 z1 ... xn zn >|
289 # previously defined 3D curve number :|
290 ## list of previously defined 3D curves >|
SAMPLE 695
695 $(OPTION LISTS ARE INDICATED by an optional wh
  ite title (such as this one), and a series of op
  tions printed in grey text (such as below).  The
   beginning of an
   option is indicated by a red '>' or '0'. To cho
  ose an option, click anywhere on the grey string
   after the red marker.  For more information, ch
  oose one of the options in this list.)[GEN INFO]
   More general information[SCROLL] Scrolling the
   screen[NUM] Entering Numbers and Fortran Expre
  ssions[ERROR] Error checking for numbers and for
   Fortran Expressions[CURSOR] Positioning the cur
  sor[EXE] Executing the Command[STOW] Stowing and
   retrieving the dialogue box.
695.1 743 744 696 697 698 699 6104 705 700
695.2 706 743
695.3 743 744 707 708 709 710 711 712 713 714 715
695.4 743 744 716 717 718 733 749
695.5 743 744 734
695.6 752 753 754 755 756