#Copyright (C) 2012 F.D.E. Committee #This data file is free software - you can redistribute it and/or #modify it under the terms of the GNU General Public License as #published by the Free Software Foundation; either version 2 of the #license, or (at your option) any later version. #This data file is distributed in the hope that it will be useful, #but WITHOUT ANY WARRANTY - without even the implied warranty of #MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the #GNU General PUblic License for more details. #You should have received a copy of the GNU General PUblic License #along with this program - if not, write to the Free Software #Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA #Try also their web site: http://www.gnu.org/copyleft/gpl.html # # A356-T6 Al-Mg-Si Cast Aluminum, Cast Horizontally. See paper for # details on microstructure. # Ref. McDowell, D.L., K.Gall, M.F.Horstemeyer, J.Fan, "Microstructure- # based fatigue modeling of cast A356-T6 alloy", Engr.Frac.Mech., V70, # 2003, pg.49-80. # Data points digitzed from graphs and may contain errors. # #FileType= strain_life #DataType= raw #TIMEcol= 0 #NAME= A356-T6 #NAME= CastAlum #Strain_units= strain #Stress_units= mpa #Sy= 0. mpa not reported #Su= 310. #eu= 0.01 not reported, guess from cyclic stress-strain #E= 71000 mpa #%RA= 0. % not reported #BHN= 0. not reported #FractureStrain= 0.01 not reported, guess from cyclic stress-strain #FractureStress= 310. not reported, assume = Su #monotonic_K= 0 not reported #monotonic_n= 0 not reported #elongation= 0 % not reported #TotStrAmpl 2Nf StsAmpl So PlasStrAmpl Init.Modulus NeubEqStsAmp 0.00801 39 301 0 0.00376 71000 414 0.00799 48 301 0 0.00375 71000 414 0.00796 56 304 0 0.00369 71000 414 0.00795 106 308 0 0.00361 71000 417 0.00796 131 308 0 0.00363 71000 417 0.00600 486 300 0 0.00177 71000 357 0.00601 891 302 0 0.00175 71000 359 0.00498 1642 298 0 0.00078 71000 324 0.00397 632 255 0 0.00038 71000 268 0.00394 749 254 0 0.00036 71000 267 0.00395 855 271 0 0.00014 71000 275 0.00396 1585 270 0 0.00016 71000 275 0.00397 2173 276 0 0.00009 71000 279 0.00398 4418 271 0 0.00015 71000 277 0.00297 12386 219 0 0.00000 71000 215 0.00297 21360 217 0 0.00000 71000 214 0.00199 111712 151 0 0.00000 71000 146 0.00199 119937 149 0 0.00000 71000 145 0.00198 207626 148 0 0.00000 71000 143 0.00199 244668 150 0 0.00000 71000 145 0.00199 300758 147 0 0.00000 71000 144 0.00200 361914 145 0 0.00000 71000 142 0.00168 500998 124 0 0.00000 71000 122 0.00166 545764 124 0 0.00000 71000 121 0.00138 846334 104 0 0.00000 71000 101 0.00139 1018674 103 0 0.00000 71000 101 0.00110 4533880 83 0 0.00000 71000 81 0.00099 20063000 71 0 0.00000 71000 72 #runout # #Mean Stress test, if you wish to activate for the plot remove #the "#" character in the first col of data lines. #Only the last column, a mean stress corrected term, should #cause the data point to fall on the fully reversed line. ## sqrt(Smax*Sa) #0.00169 661146 120 34.5 0 71000 136 #0.00097 883292 69 103.5 0 71000 109 #0.00097 989968 69 103.5 0 71000 109 #0.00071 689224 50 207 0 71000 113 #0.00068 2079360 48 103.5 0 71000 85 #0.00068 2668600 48 103.5 0 71000 85 # #