marc.data1

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

MARC 0
MARCMATS 90 100
MARCOPTS 1350
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;1 ! ; !
;2 ! ; !
;3 ! ; !
0 #( (No Arguments).)
90 # Material Number :|
100 $(MARC MATERIAL MODELS)
  [stm]Stress or Coupled Thermal-Stress Analysis
  [tm]Thermal Analysis
  [hbm]Hydrodynamic Bearing Analysis
  [am]Acoustic Analysis
  [esm]Electrostatic Analysis
  [msm]Magnetostatic Analysis
  [elm]Electromagnetic Analysis
100.1 101
100.2 102
100.3 103
100.4 104
100.5 105
100.6 106
100.7 107
101 $(STRESS or COUPLED THERMAL-STRESS MATERIALS)
  [prots]Property
  [isots]Isotropic
  [isorpts]Isotropic Rigid Plastic
  [orthots]Orthotropic
  [anisots]Anisotropic
  [hypoelas]Hypoelastic
  [mooney]Mooney
  [ogden]Ogden
  [foam]Foam
  [timetemp]Time-Temp
  [creep]Creep
  [gap]Gap Data
  [powder]Powder
  [soil]Soil
  [composite]Composite
101.1 108
101.2 109
101.3 110
101.4 111
101.5 112
101.6 113
101.7 114
101.8 115
101.9 116
101.10 117
101.11 118
101.12 119
101.13 120
101.14 121
101.15 122
102 $(THERMAL MATERIAL)
  [proth]Property
  [isoth]Isotropic
  [orthoth]Orthotropic
  [anisoth]Anisotropic
102.1 124
102.2 125
102.3 126
102.4 127
103 $(HYDRODYNAMIC BEARING MATERIAL)
  [isobear]Isotropic
103.1 128
104 $(ACOUSTIC MATERIAL)
  [isoacu]Isotropic
104.1 129
105 $(ELECTROSTATIC MATERIAL)
  [isoelst]Isotropic
  [orthoelst]Orthotropic
105.1 130
105.2 131
106 $(MAGNETOSTATIC MATERIAL)
  [isomgst]Isotropic
  [orthomgst]Orthotropic
106.1 132
106.2 133
107 $(ELECTROMAGNETIC MATERIAL)
  [isoelmag]Isotropic
  [orthoelmag]Orthotropic
107.1 134
107.2 135
108 %(Material Parameters Property)
  [e]Young's Modulus
  [pr]Poisson's Ratio
  [rho]Mass Density
  [alpha]Coefficient of Thermal Expansion
  [tinit]Initial temperature
  [ty](Von Mises) Tensile Yield
  [ab]Equivalent (Von Mises) 10th Cycle Tensile
   Yield Stress
  [rttc]Reference Temperature for Thermal
   Conductivity
  [rtsh]Reference Temperature for Specific Heat
  [rrho]Reference Mass Density
  [emiss]Emissivity for Radiating Cavities
  [ ]Temperature Effects
  [ ]Nonlinear Behavior
  [damage]Damage
  [faildata]Fail Data
  [damping]Damping
  [orient]Orientation
108.1 301
108.2 302
108.3 303
108.4 304
108.5 305
108.6 306
108.7 306
108.8 305
108.9 305
108.10 303
108.11 309
108.12 212
108.13 413
108.14 158 ;
108.15 163 ;
108.16 170
108.17 173 ;
212 $
  [temp]Temperature Effects (element prop's)
  [tempts]Temperature Effects (thermal-stress)
212.1 149 ;
212.2 152 ;
213 $
  [ ]Elastic
  [ ]Plastic
213.1 251
213.2 250
250 %(Plastic Behavior)
  [ ]Strain Options
  [ ]Yield Criteria
  [ ]Hardening Rule
250.1 189
250.2 214
250.3 215
413 $
  [ ]Elastic
  [ ]Plastic
413.1 251
413.2 450
450 %(Plastic Behavior)
  [ ]Strain Options
450.1 189
251 %(Elastic Behavior)
  [viscelprop]Viscoelastic Isotropic
251.1 139 ;
109 %(Material Parameters Isotropic)
  [e]Young's Modulus
  [pr]Poisson's Ratio
  [rho]Mass Density for Stress Analysis
  [alpha]Coefficient of Thermal Expansion
  [ty]Von Mises Tensile Yield
  [ab]Von Mises Tensile Yield ORNL
  [ ]Coupled Thermal Stress Analysis Properties
  [ ]Temperature Effects
  [ ]Nonlinear Behavior
  [cc]Concrete Crack Data
  [damage]Damage
  [faildata]Fail Data
  [damping]Damping
  [orient]Orientation
109.1 301
109.2 302
109.3 303
109.4 304
109.5 306
109.6 306
109.7 217
109.8 212
109.9 213
109.10 138 ;
109.11 158 ;
109.12 163 ;
109.13 170
109.14 173 ;
214 $(Material Parameters Yield Criteria)
  [vm]Von Mises
  [lmc]Linear Mohr Coulomb
  [pmc]Parabolic Mohr Coulomb
  [bmc]Buyuzkoturk Mohr Coulomb Concrete
  [nornl]Normal ORNL
  [cmnornl]CrMo ORNL
  [rpornl]Revp ORNL
  [aornl]Full alpha reset ORNL
  [genplast]Generalized Plasticity Model
  [vspl vp]Viscoplastic model thru sub UVSCPL
214.10 315
414 $(Material Parameters Yield Criteria)
  [vm]Von Mises
  [nornl]Normal ORNL
  [cmnornl]CrMo ORNL
  [rpornl]Revp ORNL
  [aornl]Full alpha reset ORNL
514 $(Material Parameters Yield Criteria)
  [vm]Von Mises
  [nornl]Normal ORNL
  [cmornl]CrMo ORNL
  [rpornl]Revp ORNL
  [aornl]Full alpha reset ORNL
  [genplast]Generalized Plasticity Model
  [vspl]Viscoplastic model thru sub UVSCPL
215 $(Material Parameters Hardening)
  [ih]Isotropic hardening
  [kh]Kinematic hardening
  [ch]Combined hardening
216 $(Material Parameters Type of Analysis)
  [ ]Coupled Thermal Stress Analysis Properties
  [vp]Viscoplastic Parameters
216.1 217
216.2 315
217 %(Material Parameters Coupled Thermal Stress
   Analysis)
  [co]Thermal Conductivity
  [sh]Specific Heat
  [hrho]Mass Density for Heat Transfer Analysis
  [emiss]Emissivity
217.1 307
217.2 308
217.3 303
217.4 309
110 %(Material Parameters Isotropic Rigid Plastic)
  [py]Penalty
  [rho]Mass Density for Stress Analysis
  [alpha]Coefficient of Thermal Expansion
  [ty](Von Mises) Tensile Yield
  [ ]Coupled Thermal Stress Analysis Parameters
  [ ]Temperature Effects
  [ ]Nonlinear Behavior
  [damage]Damage
  [faildata]Fail Data
  [damping]Damping
  [orient]Orientation
110.1 316
110.2 303
110.3 304
110.4 306
110.5 217
110.6 212
110.7 413
110.8 158 ;
110.9 163 ;
110.10 170
110.11 173 ;
111 %(Material Parameters ORTHOTROPIC)
  [ianels]Call User Subroutines
  [e11]E11 - Young's Modulus
  [e22]E22 - Young's Modulus
  [e33]E33 - Young's Modulus
  [v12]v12 - Poisson's Ratio
  [v23]v23 - Poisson's Ratio
  [v31]v31 - Poisson's Ratio
  [rho]Mass Density
  [g12]G12 - Shear Modulus
  [g23]G23 - Shear Modulus
  [g31]G31 - Shear Modulus
  [a11]alpha11 - Coefficient of Thermal Expansion
  [a22]alpha22 - Coefficient of Thermal Expansion
  [a33]alpha33 - Coefficient of Thermal Expansion
  [ty]Equivalent (Von Mises) Tensile Yield Stress
  [ab]Von Mises Tensile Yield ORNL
  [yrdir1]YRDIR1 Hill Direct Stress Anisotropic
   Yield Ratio
  [yrdir2]YRDIR2 Hill Direct Stress Anisotropic
   Yield Ratio
  [yrdir3]YRDIR3 Hill Direct Stress Anisotropic
   Yield Ratio
  [yrshr1]YRSHR1 Hill Shear Stress Anisotropic
   Yield Ratio
  [yrshr2]YRSHR2 Hill Shear Stress Anisotropic
   Yield Ratio
  [yrshr3]YRSHR3 Hill Shear Stress Anisotropic
   Yield Ratio
  [ ]Analysis Type
  [orthotem]Temperature Effects
  [ ]Nonlinear Behavior
  [faildata]Fail Data
  [damping]Damping
  [orient]Orientation
111.2 301
111.3 301
111.4 301
111.5 302
111.6 302
111.7 302
111.8 303
111.9 301
111.10 301
111.11 301
111.12 304
111.13 304
111.14 304
111.15 306
111.16 306
111.17 302
111.18 302
111.19 302
111.20 302
111.21 302
111.22 302
111.23 218
111.24 155 ;
111.25 219
111.26 163 ;
111.27 170
111.28 173 ;
218 $(Material Parameters Type of Analysis)
  [ ]Coupled Thermal Stress Analysis Parameters
  [vp]Viscoplastic Parameters
218.1 220
218.2 315
219 $(Nonlinear Behavior)
  [ ]Elastic
  [ ]Plastic
219.1 253
219.2 252
252 %(Plastic Behavior)
  [ ]Strain Options
  [ ]Yield Criteria
  [ ]Hardening Rule
252.1 189
252.2 514
252.3 215
419 $(Nonlinear Behavior)
  [ ]Elastic
  [ ]Plastic
419.1 253
419.2 452
452 %(Plastic Behavior)
  [ ]Strain Options
  [ ]Yield Criteria
  [ ]Hardening Rule
452.1 189
452.2 414
452.3 215
253 %(Elastic Behavior)
  [viscelorth]Viscoelastic Orthotropic
253.1 140 ;
220 %(Coupled Thermal Stress Analysis Parameters)
  [k11]K11 - Thermal Conductivity
  [k22]K22 - Thermal Conductivity
  [k33]K33 - Thermal Conductivity
  [hrho]Mass Density for Heat Transfer Analysis
  [sh]Specific Heat
  [r11]R11 - Joule Heating Analysis - Resistivity
  [r22]R22 - Joule Heating Analysis - Resistivity
  [r33]R33 - Joule Heating Analysis - Resistivity
220.1 307
220.2 307
220.3 307
220.4 303
220.5 308
220.6 310
220.7 310
220.8 310
112 %(Material Parameters ANISOTROPIC)
  [rho]Mass Density
  [ty](Von Mises) Tensile Yield
  [ab](Von Mises) Tensile Yield ORNL
  [hrho]Mass Density for Heat Transfer Analysis
  [sh]Specific Heat
  [ ]Anisotropic Data
  [orthotem]Temperature Effects
  [ ]Nonlinear Behavior
  [faildata]Fail Data
  [damping]Damping
  [orient]Orientation
112.1 303
112.2 306
112.3 306
112.4 303
112.5 308
112.6 221
112.7 155 ;
112.8 419
112.9 163 ;
112.10 170
112.11 173 ;
221 $(Anisotropic Data Input)
  [anels]User Subroutine Input of Anisotropic
   Stress-Strain Coefficients
  [anisodata]Data Input of Anisotropic
   Stress-Strain Coefficients
221.2 222
222 %(Anisotropic Data)
  [c11]C11 - Anisotropic Stress-Strain Coefficient
  [c12]C12 - Anisotropic Stress-Strain Coefficient
  [c13]C13 - Anisotropic Stress-Strain Coefficient
  [c14]C14 - Anisotropic Stress-Strain Coefficient
  [c15]C15 - Anisotropic Stress-Strain Coefficient
  [c16]C16 - Anisotropic Stress-Strain Coefficient
  [c22]C22 - Anisotropic Stress-Strain Coefficient
  [c23]C23 - Anisotropic Stress-Strain Coefficient
  [c24]C24 - Anisotropic Stress-Strain Coefficient
  [c25]C25 - Anisotropic Stress-Strain Coefficient
  [c26]C26 - Anisotropic Stress-Strain Coefficient
  [c33]C33 - Anisotropic Stress-Strain Coefficient
  [c34]C34 - Anisotropic Stress-Strain Coefficient
  [c35]C35 - Anisotropic Stress-Strain Coefficient
  [c36]C36 - Anisotropic Stress-Strain Coefficient
  [c44]C44 - Anisotropic Stress-Strain Coefficient
  [c45]C45 - Anisotropic Stress-Strain Coefficient
  [c46]C46 - Anisotropic Stress-Strain Coefficient
  [c55]C55 - Anisotropic Stress-Strain Coefficient
  [c56]C56 - Anisotropic Stress-Strain Coefficient
  [c66]C66 - Anisotropic Stress-Strain Coefficient
  [a11]alpha11 - Coefficient of Thermal Expansion
  [a12]alpha12 - Coefficient of Thermal Expansion
  [a13]alpha13 - Coefficient of Thermal Expansion
  [a22]alpha22 - Coefficient of Thermal Expansion
  [a23]alpha23 - Coefficient of Thermal Expansion
  [a33]alpha33 - Coefficient of Thermal Expansion
  [yrdir1]YRDIR1 Hill Direct Stress Anisotropic
   Yield Ratio
  [yrdir2]YRDIR2 Hill Direct Stress Anisotropic
   Yield Ratio
  [yrdir3]YRDIR3 Hill Direct Stress Anisotropic
   Yield Ratio
  [yrshr1]YRSHR1 Hill Shear Stress Anisotropic
   Yield Ratio
  [yrshr2]YRSHR2 Hill Shear Stress Anisotropic
   Yield Ratio
  [yrshr3]YRSHR3 Hill Shear Stress Anisotropic
   Yield Ratio
  [k11]K11 - Thermal Conductivity
  [k12]K12 - Thermal Conductivity
  [k13]K13 - Thermal Conductivity
  [k22]K22 - Thermal Conductivity
  [k23]K23 - Thermal Conductivity
  [k33]K33 - Thermal Conductivity
222.1 304
222.2 304
222.3 304
222.4 304
222.5 304
222.6 304
222.7 304
222.8 304
222.9 304
222.10 304
222.11 304
222.12 304
222.13 304
222.14 304
222.15 304
222.16 304
222.17 304
222.18 304
222.19 304
222.20 304
222.21 304
222.22 304
222.23 304
222.24 304
222.25 304
222.26 304
222.27 304
222.28 302
222.29 302
222.30 302
222.31 302
222.32 302
222.33 302
222.34 307
222.35 307
222.36 307
222.37 307
222.38 307
222.39 307
113 %(Material Parameters HYPOELASTIC)
  [anexp]Call user subroutines ANEXP and ORIENT
  [rho]Mass Density for Stress Analysis
  [alpha]Coefficient of Thermal Expansion
  [co]Thermal Conductivity
  [sh]Specific Heat
  [rs]Resistivity
  [hrho]Mass Density for Heat Transfer Analysis
  [ ]Temperature Effects
  [faildata]Fail Data
  [damping]Damping
  [orient]Orientation
113.2 303
113.3 304
113.4 307
113.5 308
113.6 310
113.7 303
113.8 212
113.9 163 ;
113.10 170
113.11 173 ;
114 %(Material Parameters MOONEY)
  [c10]C10, Mooney-Rivlin constant
  [c01]C01, Mooney-Rivlin constant
  [rho]Mass Density for Stress Analysis
  [alpha]Coefficient of Thermal Expansion
  [c11]C11, Higher Order Constant
  [c20]C20, Higher Order Constant
  [c30]C30, Higher Order Constant
  [co]Conductivity
  [sh]Specific Heat
  [hrho]Mass Density for Heat Transfer Analysis
  [ ]Temperature Effects
  [viscelmoon]Viscoelasticity
  [faildata]Fail Data
  [damping]Damping
  [orient]Orientation
114.1 317
114.2 317
114.3 303
114.4 304
114.5 317
114.6 317
114.7 317
114.8 307
114.9 308
114.10 303
114.11 212
114.12 141 ;
114.13 163 ;
114.14 170
114.15 173
115 %(Material Parameters OGDEN)
  [bm]Bulk Modulus
  [rho]Mass Density
  [alpha]Coefficient of thermal expansion
  [co]Thermal Conductivity
  [sh]Specific Heat
  [hrho]Heat Transfer Mass Density
  [mpse]Modulus and Power for Strain Energy Curve
  [ ]Temperature Effects
  [viscelogden]Viscoelasticity
  [damage]Damage
  [faildata]Fail Data
  [damping]Damping
115.1 301
115.2 303
115.3 304
115.4 307
115.5 308
115.6 303
115.7 319
115.8 212
115.9 142 ;
115.10 158 ;
115.11 163 ;
115.12 170
116 %(Material Parameters FOAM)
  [rho]Mass Density
  [alpha]Coefficient of Thermal Expansion
  [co]Thermal Conductivity
  [sh]Specific heat
  [hrho]Heat Transfer Mass Density
  [mpse]Modulus, Power_de and Power_vo for Strain
   Energy Curve
  [faildata]Fail Data
  [damping]Damping
  [ ]Temperature Effects
116.1 303
116.2 304
116.3 307
116.4 308
116.5 303
116.6 320
116.7 163 ;
116.8 170
116.9 212
117 %(Material Parameters TIME-TEMP)
  [mintemp]Minimal Temperature
  [maxtemp]Maximal Temperature
  [e]Young's Modulus
  [pr]Poisson's Ratio
  [yld]Yield
  [whr]Work Hardening Rate
  [alpha]Coefficient of Thermal Expansion
  [co]Thermal Conductivity
  [sh]Specific Heat
117.1 305
117.2 305
117.3 254 354
117.4 254 354
117.5 254 354
117.6 254 354
117.7 254 354
117.8 254 354
117.9 254 354
254 #(Newton Cooling Rate Coefficients) A :|