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Isotropic Elastic: High Carbon Steel <BR>MPMOD,1,1 <BR>MP,ex,1,210e9 ! Pa <BR>MP,nuxy,1,.29 ! No units <BR>MP,dens,1,7850 ! kg/m3 <BR><BR>Orthotropic Elastic: Al203 <BR>MPMOD,1,2 <BR>MP,ex,1,307e9 ! Pa <BR>MP,ey,1,358.1e9 ! Pa <BR>MP,ez,1,358.1e9 ! Pa <BR>MP,gxy,126.9e9 ! Pa <BR>MP,gxz,126.9e9 ! Pa <BR>MP,gyz,126.9e9 ! Pa <BR>MP,nuxy,1,.20 ! No units <BR>MP,nuxz,1,.20 ! No units <BR>MP,nuyz,1,.20 ! No units <BR>MP,dens,1,3750 ! kg/m3 <BR><BR>Anisotropic Elastic: Cadmium <BR>MPMOD,1,3 <BR>MP,dens,3400 ! kg/m3 <BR>TB,ANEL,1 <BR>TBDATA,1,121.0e9 ! C11 (Pa) <BR>TBDATA,2,48.1e9 ! C12 (Pa) <BR>TBDATA,3,121.0e9 ! C22 (Pa) <BR>TBDATA,4,44.2e9 ! C13 (Pa) <BR>TBDATA,5,44.2e9 ! C23 (Pa) <BR>TBDATA,6,51.3e9 ! C33 (Pa) <BR>TBDATA,10,18.5 ! C44 (Pa) <BR>TBDATA,15,18.5 ! C55 (Pa) <BR>TBDATA,21,24.2 ! C66 (Pa) <BR><BR>Blatz-K Rubber <BR>MPMOD,1,5 <BR>MP,gxy,1,104e7 ! Pa <BR><BR>Mooney-Rivlin: Rubber <BR>MPMOD,1,8 <BR>MP,dens,1,.0018 ! lb/in3 <BR>MP,nuxy,1,.499 ! No units <BR>TB,MOONEY,1 <BR>TBDATA,1,80 ! C10 (psi) <BR>TBDATA,2,20 ! C01 (psi) <BR><BR>Viscoelastic: G-11 Glass <BR>MPMOD,1,18 <BR>MP,dens,1,2390 ! kg/m3 <BR>TB,EVISC,1 <BR>TBDATA,46,27.4e9 ! Go (Pa) <BR>TBDATA,47,0.0 ! (Pa) <BR>TBDATA,48,60.5e9 ! Bulk modulus (Pa) <BR>TBDATA,61,.53 ! 1/ <BR><BR>Bilinear Isotropic Plasticity: Nickel Alloy <BR>MPMOD,1,6 <BR>MP,ex,1,180e9 ! Pa <BR>MP,nuxy,1,.31 ! No units <BR>MP,dens,1,8490 ! kg/m3 <BR>TB,BISO,1 <BR>TBDATA,1,900e6 ! Yield stress (Pa) <BR>TBDATA,2,445e6 ! Tangent modulus (Pa) <BR><BR>Transversely Anisotropic Elastic Plastic: 1010 Steel <BR>MPMOD,1,10 <BR>MP,ex,1,207e9 ! Pa <BR>MP,nuxy,1,.29 ! No units <BR>MP,dens,1,7845 ! kg/m3 <BR>TB,PLAW,,,,7 <BR>TBDATA,1,128.5e6 ! Yield stress (Pa) <BR>TBDATA,2,202e5 ! Initial strain at failure <BR>TBDATA,3,1.41 ! r-value <BR>TBDATA,4,1 ! Yield stress vs. plastic strain curve (see EDCURVE below) <BR>Strain(1) = 0,.05,.1,.15,.2 <BR>YldStres(1)=207e6,210e6,214e6,218e6,220e6 ! yield stress <BR>EDCURVE,ADD,1,Strain (1),YldStres(1) <BR><BR>Rate Sensitive Powerlaw Plasticity: A356 Aluminum <BR>MPMOD,1,17 <BR>MP,ex,1,75e9 ! Pa <BR>MP,nuxy,1,.33 ! No units <BR>MP,dens,1,2750 ! kg/m3 <BR>TB,PLAW,,,,4 <BR>TBDATA,1,1.002 ! k (MPa) <BR>TBDATA,2,.7 ! m <BR>TBDATA,3,.32 ! n <BR>TBDATA,4,5.0 ! Initial strain rate (s-1) <BR><BR>Plastic Kinematic: 1018 Steel <BR>MPMOD,1,19 <BR>MP,ex,1,200e9 ! Pa <BR>MP,nuxy,1,.27 ! No units <BR>MP,dens,1,7865 ! kg/m3 <BR>TB,PLAW,,,,1 <BR>TBDATA,1,310e6 ! Yield stress (Pa) <BR>TBDATA,2,763e6 ! Tangent modulus (Pa) <BR>TBDATA,4,40.0 ! C (s-1) <BR>TBDATA,5,5.0 ! P <BR>TBDATA,6,.75 ! Failure strain <BR><BR>Bilinear Kinematic Plasticity: Titanium Alloy <BR>MPMOD,1,33 <BR>MP,ex,1,100e9 ! Pa <BR>MP,nuxy,1,.36 ! No units <BR>MP,dens,1,4650 ! kg/m3 <BR>TB,BKIN,1 <BR>TBDATA,1,70e6 ! Yield stress (Pa) <BR>TBDATA,2,112e6 ! Tangent modulus (Pa) <BR><BR>Powerlaw Plasticity: Aluminum 1100 <BR>MPMOD,1,21 <BR>MP,ex,1,69e9 ! Pa <BR>MP,nuxy,1,.33 ! No units <BR>MP,dens,1,2710 ! kg/m3 <BR>TB,PLAW,,,,2 <BR>TBDATA,1,0.598 ! k <BR>TBDATA,2,0.216 ! n <BR>TBDATA,3,6500.0 ! C (s-1) <BR>TBDATA,4,4.0 ! P <BR><BR>3 Parameter Barlat Plasticity: Aluminum 5182 <BR>MPMOD,1,22 <BR>MP,ex,1,76e9 ! Pa <BR>MP,nuxy,1,.34 ! No units <BR>MP,dens,1,2720 ! kg/m3 <BR>TB,PLAW,,,,3 <BR>TBDATA,1,1 ! Hardening rule of 1 (yield stress) <BR>TBDATA,2,25e6 ! Tangent modulus (Pa) <BR>TBDATA,3,145e6 ! Yield stress (Pa) <BR>TBDATA,4,0.170 ! Barlat exponent, m <BR>TBDATA,5, .73 ! R00 <BR>TBDATA,6,.68 ! R45 <BR>TBDATA,7,.65 ! R90 <BR>TBDATA,8,0 ! CSID <BR><BR>Barlat Anisotropic Plasticity: 2008-T4 Aluminum <BR>MPMOD,1,23 <BR>MP,ex,1,76e9 ! Pa <BR>MP,nuxy,1,.34 ! No units <BR>MP,dens,1,2720 ! kg/m3 <BR>TB,PLAW,,,,6 <BR>TBDATA,1,1.04 ! k (MPa) <BR>TBDATA,2,.65 ! Initial strain at failure <BR>TBDATA,3,.254 ! n <BR>TBDATA,4,11 ! Barlat exponent, m <BR>TBDATA,5, 1.017 ! a <BR>TBDATA,6,1.023 ! b <BR>TBDATA,7,.9761 ! c <BR>TBDATA,8,.9861 ! f <BR>TBDATA,9,.9861 ! g <BR>TBDATA,9,.8875 ! h <BR><BR>Strain Rate Dependent Plasticity: 4140 Steel <BR>MPMOD,1,24 <BR>MP,ex,1,209e9 ! Pa <BR>MP,nuxy,1,.29 ! No units <BR>MP,dens,1,7850 ! kg/m3 <BR>TB,PLAW,,,,5 <BR>TBDATA,1,1 ! LCID yield stress vs. strain rate (see first EDCURVE command below) <BR>TBDATA,2,22e5 ! Tangent modulus (Pa) <BR>TBDATA,3,2 ! LCID Elastic modulus vs. strain rate (see second EDCURVE command below) <BR>StrnRate(1) = 0,.08,.16,.4,1.0 <BR>YldStres(1) = 207e6,250e6,275e6,290e6,300e6 <BR>ElasMod(1) = 209e9,211e9,212e9,215e9,218e9 <BR>EDCURVE,ADD,1,StrnRate(1),YldStres(1) <BR>EDCURVE,ADD,2,StrnRate(1),ElasMod(1) <BR><BR>Piecewise Linear Plasticity: High Carbon Steel <BR>MPMOD,1,28 <BR>MP,ex,1,207e9 ! Pa <BR>MP,nuxy,1,.30 ! No units <BR>MP,dens,1,7830 ! kg/m3 <BR>TB,PLAW,,,,8 <BR>TBDATA,1,207e6 ! Yield stress (Pa) <BR>TBDATA,3,.75 ! Failure strain <BR>TBDATA,4,40.0 ! C (strain rate parameter) <BR>TBDATA,5,5.0 ! P (strain rate parameter) <BR>TBDATA,6,1 ! LCID for true stress vs. true strain (see EDCURVE below) <BR>TruStran(1)=0,.08,.16,.4,.75 <BR>TruStres(1)=207e6,250e6,275e6,290e6,3000e6 <BR>EDCURVE,ADD,1,TruStran (1),TruStres(1) <BR><BR>Johnson-Cook Linear Polynomial EOS: 1006 Steel <BR>MPMOD,1,30 <BR>MP,ex,1,207e9 ! Pa <BR>MP,nuxy,1,.30 ! No units <BR>MP,dens,1,7850 ! kg/m3 <BR>TB,EOS,1,,,1,1 <BR>TBDATA,1,350.25e6 ! A (Pa) <BR>TBDATA,2,275e6 ! B (Pa) <BR>TBDATA,3,.36 ! n <BR>TBDATA,4,.022 ! c <BR>TBDATA,5,1.0 ! m <BR>TBDATA,6,1400 ! Melt temperature (oC) <BR>TBDATA,7,30 ! Room temperature (oC) <BR>TBDATA,8,10 ! Initial strain rate <BR>TBDATA,9,4500 ! Specific heat <BR>TBDATA,10,240e6 ! Failure stress <BR>TBDATA,11,-.8 ! Failure value D1 <BR>TBDATA,12,2.1 ! Failure value D2 <BR>TBDATA,13,-.5 ! Failure value D3 <BR>TBDATA,14,.0002 ! Failure value D4 <BR>TBDATA,15,.61 ! Failure value D5 <BR>TBDATA,17,20e5 ! EOS linear polynomial term <BR><BR>Johnson-Cook Gruneisen EOS: OFHC Copper <BR>MPMOD,1,31 <BR>MP,ex,1,138e9 ! Pa <BR>MP,nuxy,1,.35 ! No units <BR>MP,dens,1,8330 ! kg/m3 <BR>TB,EOS,1,,,1,2 <BR>TBDATA,1,89.63e6 ! A (Pa) <BR>TBDATA,2,291.64e6 ! B (Pa) <BR>TBDATA,3,.31 ! n <BR>TBDATA,4,.025 ! c <BR>TBDATA,5,1.09 ! m <BR>TBDATA,6,1200 ! Melt temperature (oC) <BR>TBDATA,7,30 ! Room temperature (oC) <BR>TBDATA,8,10 ! Initial strain rate <BR>TBDATA,9,4400 ! Specific heat <BR>TBDATA,10,240e6 ! Failure stress <BR>TBDATA,11,-.54 ! Failure value D1 <BR>TBDATA,12,4.89 ! Failure value D2 <BR>TBDATA,13,-3.03 ! Failure value D3 <BR>TBDATA,14,.014 ! Failure value D4 <BR>TBDATA,15,1.12 ! Failure value D5 <BR>TBDATA,16,.394 ! C <BR>TBDATA,17,1.489 ! S1 <BR>TBDATA,18,0.0 ! S2 <BR>TBDATA,19,0.0 ! S3 <BR>TBDATA,20,2.02 ! 0 <BR>TBDATA,21,.47 ! A <BR><BR>Null Material Linear Polynomial EOS: Brass <BR>MPMOD,1,32 <BR>MP,ex,1,200e9 ! Pa <BR>MP,nuxy,1,.3 ! No units <BR>MP,dens,1,7500 ! kg/m3 <BR>TB,EOS,1,,,2,1 <BR>TBDATA,1,0.0 ! Pressure cut-off <BR>TBDATA,3,1.5 ! Relative volume in tension <BR>TBDATA,4,.7 ! Relative volume in compression <BR>TBDATA,17,16e5 ! EOS linear polynomial <BR><BR>Null Material Gruneisen EOS: Aluminum <BR>MPMOD,1,29 <BR>MP,ex,1,100e9 ! Pa <BR>MP,nuxy,1,.34 ! No units <BR>MP,dens,1,2500 ! kg/m3 <BR>TB,EOS,1,,,2,2 <BR>TBDATA,1,-10000 ! Pressure cut-off (Pa) <BR>TBDATA,3,2.0 ! Relative volume in tension <BR>TBDATA,4,.5 ! Relative volume in compression <BR>TBDATA,16,.5386 ! C <BR>TBDATA,17,1.339 ! S1 <BR>TBDATA,18,0.0 ! S2 <BR>TBDATA,19,0.0 ! S3 <BR>TBDATA,20,1.97 ! 0 <BR>TBDATA,21,.48 ! A <BR><BR>Rigid Material: Steel <BR>MPMOD,1,7 <BR>MP,ex,1,207e9 ! Pa <BR>MP,nuxy,1,.3 ! No units <BR>MP,dens,1,7580 ! kg/m3 <BR>EDMP,rigid,1,7,7 <BR><BR>Cable Material: Steel <BR>MPMOD,1,27 <BR>MP,ex,1,207e9 ! Pa <BR>MP,nuxy,1,.3 ! No units <BR>EDMP,cable,1,1 ! See EDCURVE below <BR>EngStran(1) = .02,.04,.06,.08 <BR>EngStres(1) = 207e6,210e6,215e6,220e6 <BR>EDCURVE,ADD,1,EngStran (1),EngStres(1) <BR><BR>Transversely Anisotropic FLD: Stainless Steel <BR>MPMOD,1,54 <BR>MP,ex,1,30e6 ! Pa <BR>MP,nuxy,1,.29 ! No units <BR>MP,dens,1,.00285 ! kg/m3 <BR>TB,PLAW,1,,,10 <BR>TBDATA,1,20e3 ! Initial yield stress (Pa) <BR>TBDATA,2,5000 ! Tangent modulus (Pa) <BR>TBDATA,3,.2 ! Hardening parameter <BR>TBDATA,5,1 ! Maximum yield stress curve (see EDCURVE below) <BR>mnstrn(1) = -30,-10,0,20,40,50 <BR>mjstrn(1) = 80,40,29,39,45,44 <BR>EDCURVE,ADD,1,mnstrn (1),mjstrn(1) <BR><BR>Steinberg Gruneisen EOS: Stainless Steel <BR>MPMOD,1,52 <BR>MP,gxy,1,11.16e6 ! (Pa) <BR>MP,dens,1,.285 ! (kg/m3) <BR>TB,EOS,1,,,5,2 <BR>TBDATA,1,49.3e3 ! Initial yield stress (Pa) <BR>TBDATA,2,43 ! Hardening coefficient <BR>TBDATA,3,.35 ! n <BR>TBDATA,5,.36e6 ! Maximum yield stress (Pa) <BR>TBDATA,10,32 ! Atomic weight <BR>TBDATA,11,2380 ! Absolute melting temp. <BR>TBDATA,15,2 ! Spall type <BR>TBDATA,16,1 ! Cold compression energy flag <BR>TBDATA,17,-50 ! Min. temp. parameter <BR>TBDATA,18,200 ! Max. temp. parameter <BR>TBDATA,29,.457 ! C <BR>TBDATA,30,1.49 ! S1 <BR>TBDATA,31,0.0 ! S2 <BR>TBDATA,32,0.0 ! S3 <BR>TBDATA,33,1.93 ! 0 <BR>TBDATA,34,1.4 ! A <BR> |
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