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chiko75铜虫 (小有名气)
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[求助]
ANSYS中,do循环中使用生死单元再单点重启动,如何接着最后一个子步重启动? 已有1人参与
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请问一下,我在ANSYS中试用重启动功能时,在do循环里激活单元再单点重启动,重启动后发现所有单元都激活了。没有重启动的命令时计算结果是正常的。请问应该怎么改?命令如下: !边界条件 time,1e-5 solve esel,s,mat,,1 ekill,all allsel *do,i,1,10 locy=i*step_inc local,13,0,0,locy,0 esel,s,loc,x,-width/2,width/2 esel,r,loc,y,-step_inc,step_inc esel,r,loc,z,0,height ealive,all allsel !载荷 allsel solve finish /post1 !后处理中没有任何命令 /solu resume antype,,rest,,,continue *enddo |
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【答案】应助回帖
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昨天试算和修改你的命令流,主要是添加了很多输出中间结果的命令,进行检查分析。最终确定重启动确实会导致生死单元的定义丢失,通过重新定义生死单元可以解决这个问题。 看你的命令流,只是杀死了材料 1 的所有单元,所以定义生死单元还是很方便的。不过,有一个问题我没有修改,那就是你定义的约束条件好像涉及了少数材料 1 的单元,而你激活了与约束条件有关的单元,因而计算过程中死单元的数量不断在变化。不知道这是否你的本意。 除了为了检查中间结果的部分外,修改的重点有一以几个: 1 在循环中,solve 命令之后增加了 save 命令,以保证盘上存放的是最后一个计算成功的子步的模型。 2 在循环中,后处理之后,回到求解模块时,恢复了 resume 命令,以保证模型与上一次求解后的状态一致。 3 由于上两步不能保证死单元不变,所以在 Antype Rest 命令之后重新定义了死单元。 修改后的命令流如下。其中,用 *cfopen 命令打开了一个用于存放中间结果的文件,计算结束后可以看一下该文件,可以看到死计算过程单及元数量的变化。 !*** chiko75 finish /clear /filn, chiko75-03,1 /title, chiko75 -03 /units,si /prep7 ET,1,SOLID70!responsive structural element for solid185 ET,2,SOLID90!responsive structural element for solid186 !et,2,suff_h152 !keyopt,2,4,0 !keyopt,2,5,1 !keyopt,2,8,3 !keyopt,2,9,1 mat3_top=1 mat_h13=2 !*** !*** /input,FeCrBSi_top_ther,dat,E:\acdE\ANSYSdb\tesueship\matpara !*** /input,H13_ther,dat,E:\acdE\ANSYSdb\tesueship\matpara /input, mat3_top,txt !*** 读入两个材料属性文件 /input, mat_h13,txt !*** mpdele,enth,1 mpdele,enth,2 w_matrix=0.05 l_matrix=0.08 h_matrix=0.010 h_clad=0.002 esize_ref=0.001 D=0.002 pi=acos(-1) dists_inc=esize_ref v_scan=10e-3 temp_preh=298.15 count=4 !l_matrix/v_scan /COM,create volume block,-D/2,D/2,0,l_matrix,0,h_clad cm,clad,volu block,-1.5*D,1.5*D,0,l_matrix,0,-h_matrix block,-(1.5*D+2*esize_ref),-1.5*D,0,l_matrix,0,-h_matrix block,1.5*D,(1.5*D+2*esize_ref),0,l_matrix,0,-h_matrix block,-6*D,-(1.5*D+2*esize_ref),0,l_matrix,0,-h_matrix block,(1.5*D+2*esize_ref),6*D,0,l_matrix,0,-h_matrix block,-w_matrix/2,-6*D,0,l_matrix,0,-h_matrix block,6*D,w_matrix/2,0,l_matrix,0,-h_matrix allsel vglue,all vsel,s,loc,x,-w_matrix/2,-6*D vsel,a,loc,x,6*D,w_matrix/2 cm,matrix_hex,volu vsel,s,loc,x,-6*D,6*D vsel,r,loc,z,0,-l_matrix cm,matrix_tet,volu allsel cmgrp,matrix,matrix_hex,matrix_tet allsel lsel,s,loc,x,-1.5*D,1.5*D lesize,all,esize_ref lsel,s,loc,x,-(1.5*D+esize_ref) lsel,a,loc,x,(1.5*D+esize_ref) lsel,u,tan1,z,1 lsel,u,tan1,z,-1 lesize,all,esize_ref lsel,s,loc,x,-4*D,-w_matrix lsel,a,loc,x,4*D,w_matrix lsel,r,loc,z,-h_matrix/2 lesize,all,4*esize_ref lsel,s,loc,x,-4*D,-w_matrix lsel,a,loc,x,4*D,w_matrix lsel,r,tan1,z,0 lesize,all,4*esize_ref mat,1 type,1 mshkey,1 mshape,0 vmesh,clad mat,2 type,1 mshkey,1 mshape,0 vmesh,matrix_hex !vmesh,7 type,2 mshkey,0 mshape,1 !vmesh,5 !vmesh,6 vmesh,matrix_tet numcmp,area vimp,matrix_tet,0,3 numcmp,all !*** 压缩实体编号,去掉空白的编号 save /solu *cfopen, chiko75-rl3,txt ! 定义一个输出文件,记录一些中间结果 antype,4 timint,1,therm solcontrol,on,, tintp,,,,1,,,,,, thopt,full,0.05,64 neqit,100 trnopt,full nropt,full,,on pred,on,,on cutcontrol,noiterpredict,0 cutcontrol,cutbackfactor,0.5 cutcontrol,plslimit,10, cnvtol,temp,,0.01 cnvtol,heat,,0.01,,1e-6 kbc,0 lumpm,0 lnsrch,1 autots,1 ncnv,2 outres,all,all!basic,last tunif,temp_preh allsel nsel,s,loc,z,-h_matrix sf,all,conv,5,temp_preh allsel time,1e-4 deltim,5e-5,5e-5,5e-5 *vwrite, (/' First solu & solve time=1e-4') !*** 写中间结果文件,下同 solve /solu !*** 这个 /solu 是多余的,可以删除试试,是否影响计算结果 *vwrite, (/' Second solu - undeleted') esel,s,mat,,1 ekill,all cm, emat_1,elem !*** 为材料 1 死单元建组 !*** 将当前死单元数写入中间结果文件,下同 *get,ekilled, elem, 0, count cm, ekilled, elem *vwrite, ekilled (' Ekill all elements for mat 1, count =',f6.0 ) esel,s,live eplot !rescontrol,define,all,all i=1 *do,i,0,count ! count = 4 disy=i*dists_inc t=(disy+dists_inc)/v_scan !!!!! *vwrite, i,t (//' In *do, i=',f5.0, ' time=',f10.8) esel,s,mat,,1 nsle,s,1 nsel,r,loc,y,disy-dists_inc,disy+dists_inc,0.00001 esln,s,1 !*** 可能会包含部分 mat 1 的单元 ealive,all !*** 导致部分死单元被激活 bf,all,hgen,4e10 esel,s,live eplot csys,0 allsel esel,s,live nsle,s,1, nsel,r,ext nsel,u,loc,z,-h_matrix !------改 sf,all,conv,50,temp_preh !------改 time,t nsubst,5,1000,5,1 allsel !求解 SOLVE parsav,all,parareco-i1,txt !** 保存参数 save !*** 求解后将模型存盘 !*** 检查死单元 cm, e_befor,elem !*** 保存当前单元 esel,s,live esel,inve cm, ekilled_2,elem !*** 为死单元建组 *get,ekilled_2, elem, 0, count !!!!! *vwrite, i, ekilled_2 (' After solve, i =',f5.0,' killed elem count = ',f7.0) cmsel, s, e_befor !*** 恢复原来单元组 /solu !*** 这个 /solu 是多余的,可以删除试试,是否影响计算结果 !!!!! *vwrite,i,t (/' 3-th solu i = ',f5.0,' time=',f10.8) parsav,all,parareco-i2,txt !** 再次保存参数,与上一次比较 BFDELE,all,HGEN allsel nsel,u,loc,z,-h_matrix sfdele,all,conv allsel save finish /post1 !etable,temper,temp !esel,s,etab,temper,1160 !cm,temper1,elem finish !save !/filename, !*** 检查死单元 cm, e_befor,elem !*** 保存当前单元 esel,s,live esel,inve cm, ekilled_3,elem !*** 为死单元建组 *get,ekilled_3, elem, 0, count *vwrite, i, ekilled_3 (' After solve, i =',f5.0,' killed elem count = ',f6.0) cmsel, s, e_befor !*** 恢复原来单元组 /solu resume !**** 恢复为上面存储的模型 parres,new,parareco-i1,txt !!!!! *vwrite (/' 4-th solu, before rest ') parsav,all,parareco-i3,txt !** 再次保存参数,与第一次比较 !*** 检查死单元 cm, e_befor,elem !*** 保存当前单元 esel,s,live esel,inve cm, ekilled_4,elem !*** 为死单元建组 *get,ekilled_4, elem, 0, count *vwrite, i, ekilled_4 (' Before rest, i =',f5.0,' killed elem count = ',f6.0) cmsel, s,e_befor !*** 恢复原来单元组 antype,,rest !*** 检查死单元 cm, e_befor,elem !*** 保存当前单元 esel,s,live esel,inve cm, ekilled_5,elem !*** 为死单元建组 *get,ekilled_5, elem, 0, count *vwrite, i, ekilled_5 (' After rest, i =',f5.0,' killed elem count = ',f6.0) cmsel, s, e_befor !*** 恢复原来单元组 !*** 如果没有死单元,则重新定义材料 1 的定义为死单元 *if, ekilled_5,eq,0,then ESEL,S,MAT,,1 ekill,all *get,ekilled_5, elem, 0, count *vwrite, i, ekilled_5 (' Modify: After rest, i =',f5.0,' killed elem count = ',f6.0) cmsel, s, e_befor !*** 恢复原来单元组 *endif parres,new,parareco-i3,txt !*** 检查死单元 cm, e_befor,elem !*** 保存当前单元 esel,s,live esel,inve cm, ekilled_6,elem !*** 为死单元建组 *get,ekilled_6, elem, 0, count *vwrite, i, ekilled_6 (' After rest¶res, i =',f5.0,' killed elem count = ',f6.0) cmsel, s, e_befor !*** 恢复原来单元组 !parres,new,parareco,txt !esel,s,,,temper1 !ekill,all ! allsel !kuse,1 !solve allsel *ENDDO *cfclose ! * |
11楼2023-08-13 08:54:35
【答案】应助回帖
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有两个地方改一下试试: 1 循环中,第一个 solve 之后增加一个 save 命令。 2 循环中,后处理之后,回到 /solu,一个 resume 命令是多余的,且会导致其它问题,需要删除掉。 不过,上面增加 save 命令后,这个 resume 命令也就失去了作用,不删除也许是可以的。只是为了保险,还是删除较好。 3 此外,在循环中第一个 solve 之后,save 之前,还可以增加一个命令“ parsave, all 然后,在后处理之后,回到求解模块时,再增加一个命令: paeres, new 以保证重新回到求解模块时模型的状态与之前相同。 你先改改试试,如仍有问题,需要你提供完整的命令流,以便分析。 |
2楼2023-08-04 08:40:16
chiko75
铜虫 (小有名气)
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谢谢,不过还是不行。具体命令如下 finish /clear /units,si /prep7 ET,1,SOLID70!responsive structural element for solid185 ET,2,SOLID90!responsive structural element for solid186 !et,2,suff_h152 !keyopt,2,4,0 !keyopt,2,5,1 !keyopt,2,8,3 !keyopt,2,9,1 mat3_top=1 mat_h13=2 /input,FeCrBSi_top_ther,dat,E:\acdE\ANSYSdb\tesueship\matpara /input,H13_ther,dat,E:\acdE\ANSYSdb\tesueship\matpara mpdele,enth,1 mpdele,enth,2 w_matrix=0.05 l_matrix=0.08 h_matrix=0.010 h_clad=0.002 esize_ref=0.001 D=0.002 pi=acos(-1) dists_inc=esize_ref v_scan=10e-3 temp_preh=298.15 count=4 !l_matrix/v_scan /COM,create volume block,-D/2,D/2,0,l_matrix,0,h_clad cm,clad,volu block,-1.5*D,1.5*D,0,l_matrix,0,-h_matrix block,-(1.5*D+2*esize_ref),-1.5*D,0,l_matrix,0,-h_matrix block,1.5*D,(1.5*D+2*esize_ref),0,l_matrix,0,-h_matrix block,-6*D,-(1.5*D+2*esize_ref),0,l_matrix,0,-h_matrix block,(1.5*D+2*esize_ref),6*D,0,l_matrix,0,-h_matrix block,-w_matrix/2,-6*D,0,l_matrix,0,-h_matrix block,6*D,w_matrix/2,0,l_matrix,0,-h_matrix allsel vglue,all vsel,s,loc,x,-w_matrix/2,-6*D vsel,a,loc,x,6*D,w_matrix/2 cm,matrix_hex,volu vsel,s,loc,x,-6*D,6*D vsel,r,loc,z,0,-l_matrix cm,matrix_tet,volu allsel cmgrp,matrix,matrix_hex,matrix_tet allsel lsel,s,loc,x,-1.5*D,1.5*D lesize,all,esize_ref lsel,s,loc,x,-(1.5*D+esize_ref) lsel,a,loc,x,(1.5*D+esize_ref) lsel,u,tan1,z,1 lsel,u,tan1,z,-1 lesize,all,esize_ref lsel,s,loc,x,-4*D,-w_matrix lsel,a,loc,x,4*D,w_matrix lsel,r,loc,z,-h_matrix/2 lesize,all,4*esize_ref lsel,s,loc,x,-4*D,-w_matrix lsel,a,loc,x,4*D,w_matrix lsel,r,tan1,z,0 lesize,all,4*esize_ref mat,1 type,1 mshkey,1 mshape,0 vmesh,clad mat,2 type,1 mshkey,1 mshape,0 vmesh,matrix_hex !vmesh,7 type,2 mshkey,0 mshape,1 !vmesh,5 !vmesh,6 vmesh,matrix_tet numcmp,area vimp,matrix_tet,0,3 save /solu antype,4 timint,1,therm solcontrol,on,, tintp,,,,1,,,,,, thopt,full,0.05,64 neqit,100 trnopt,full nropt,full,,on pred,on,,on cutcontrol,noiterpredict,0 cutcontrol,cutbackfactor,0.5 cutcontrol,plslimit,10, cnvtol,temp,,0.01 cnvtol,heat,,0.01,,1e-6 kbc,0 lumpm,0 lnsrch,1 autots,1 ncnv,2 outres,all,all!basic,last tunif,temp_preh allsel nsel,s,loc,z,-h_matrix sf,all,conv,5,temp_preh allsel time,1e-4 deltim,5e-5,5e-5,5e-5 solve /solu esel,s,mat,,1 ekill,all esel,s,live eplot !rescontrol,define,all,all i=1 *do,i,0,count disy=i*dists_inc t=(disy+dists_inc)/v_scan esel,s,mat,,1 nsle,s,1 nsel,r,loc,y,disy-dists_inc,disy+dists_inc,0.00001 esln,s,1 ealive,all bf,all,hgen,4e10 esel,s,live eplot csys,0 allsel esel,s,live nsle,s,1, nsel,r,ext nsel,u,loc,z,-h_matrix !------改 sf,all,conv,50,temp_preh !------改 time,t nsubst,5,1000,5,1 allsel !求解 SOLVE parsav,all,parareco,txt save /solu BFDELE,all,HGEN allsel nsel,u,loc,z,-h_matrix sfdele,all,conv allsel save finish /post1 !etable,temper,temp !esel,s,etab,temper,1160 !cm,temper1,elem finish !save !/filename, /solu !resume parres,new,parareco,txt antype,,rest !parres,new,parareco,txt !esel,s,,,temper1 !ekill,all allsel !kuse,1 !solve allsel *ENDDO 材料物性参数如下: !mat3_top=1 MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,973.15 MPTEMP,9,975.33443 MPTEMP,10,998.17961 MPTEMP,11,999.8139 MPTEMP,12,1015.91817 MPTEMP,13,1073.15 MPTEMP,14,1173.15 MPTEMP,15,1373.15 MPTEMP,16,1411.33015 MPTEMP,17,1456.42042 MPTEMP,18,1473.15 MPTEMP,19,1573.15 MPTEMP,20,1618.42234 MPTEMP,21,1658.14359 MPTEMP,22,1673.15 MPTEMP,23,1773.15 MPTEMP,24,1873.15 MPTEMP,25,1973.15 MPTEMP,26,2073.15 MPTEMP,27,2173.15 MPTEMP,28,2273.15 MPTEMP,29,2373.15 MPTEMP,30,2473.15 MPTEMP,31,2573.15 MPTEMP,32,2673.15 MPTEMP,33,2773.15 MPTEMP,34,2873.15 MPTEMP,35,2973.15 MPTEMP,36,3073.15 MPTEMP,37,3173.15 MPTEMP,38,3273.15 FACT_DENS=1000.0 MPDATA,DENS,mat3_top,1,7.02202213*FACT_DENS MPDATA,DENS,mat3_top,2,6.99741469*FACT_DENS MPDATA,DENS,mat3_top,3,6.964275398*FACT_DENS MPDATA,DENS,mat3_top,4,6.930778305*FACT_DENS MPDATA,DENS,mat3_top,5,6.896943469*FACT_DENS MPDATA,DENS,mat3_top,6,6.862790649*FACT_DENS MPDATA,DENS,mat3_top,7,6.828339298*FACT_DENS MPDATA,DENS,mat3_top,8,6.557242353*FACT_DENS MPDATA,DENS,mat3_top,9,6.548547164*FACT_DENS MPDATA,DENS,mat3_top,10,7.178593816*FACT_DENS MPDATA,DENS,mat3_top,11,7.215224808*FACT_DENS MPDATA,DENS,mat3_top,12,7.214457885*FACT_DENS MPDATA,DENS,mat3_top,13,7.1932084*FACT_DENS MPDATA,DENS,mat3_top,14,7.153846107*FACT_DENS MPDATA,DENS,mat3_top,15,7.182897395*FACT_DENS MPDATA,DENS,mat3_top,16,7.130974654*FACT_DENS MPDATA,DENS,mat3_top,17,7.097697794*FACT_DENS MPDATA,DENS,mat3_top,18,7.084619144*FACT_DENS MPDATA,DENS,mat3_top,19,6.981560988*FACT_DENS MPDATA,DENS,mat3_top,20,6.905731826*FACT_DENS MPDATA,DENS,mat3_top,21,6.869300497*FACT_DENS MPDATA,DENS,mat3_top,22,6.857610676*FACT_DENS MPDATA,DENS,mat3_top,23,6.77826579*FACT_DENS MPDATA,DENS,mat3_top,24,6.696569749*FACT_DENS MPDATA,DENS,mat3_top,25,6.612749342*FACT_DENS MPDATA,DENS,mat3_top,26,6.52702854*FACT_DENS MPDATA,DENS,mat3_top,27,6.43962735*FACT_DENS MPDATA,DENS,mat3_top,28,6.350760781*FACT_DENS MPDATA,DENS,mat3_top,29,6.260637928*FACT_DENS MPDATA,DENS,mat3_top,30,6.169461176*FACT_DENS MPDATA,DENS,mat3_top,31,6.077425517*FACT_DENS MPDATA,DENS,mat3_top,32,5.984717994*FACT_DENS MPDATA,DENS,mat3_top,33,5.891517235*FACT_DENS MPDATA,DENS,mat3_top,34,5.797993114*FACT_DENS MPDATA,DENS,mat3_top,35,5.704306492*FACT_DENS MPDATA,DENS,mat3_top,36,5.610609061*FACT_DENS MPDATA,DENS,mat3_top,37,5.517043266*FACT_DENS MPDATA,DENS,mat3_top,38,5.423742303*FACT_DENS MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,973.15 MPTEMP,9,1073.15 MPTEMP,10,1173.15 MPTEMP,11,1373.15 MPTEMP,12,1473.15 MPTEMP,13,1573.15 MPTEMP,14,1673.15 MPTEMP,15,1773.15 MPTEMP,16,1873.15 MPTEMP,17,1973.15 MPTEMP,18,2073.15 MPTEMP,19,2173.15 MPTEMP,20,2273.15 MPTEMP,21,2373.15 MPTEMP,22,2473.15 MPTEMP,23,2573.15 MPTEMP,24,2673.15 MPTEMP,25,2773.15 MPTEMP,26,2873.15 MPTEMP,27,2973.15 MPTEMP,28,3073.15 MPTEMP,29,3173.15 MPTEMP,30,3273.15 FACT_C=1000.0 MPDATA,C,mat3_top,1,0.52752*FACT_C MPDATA,C,mat3_top,2,0.55072*FACT_C MPDATA,C,mat3_top,3,0.57544*FACT_C MPDATA,C,mat3_top,4,0.59716*FACT_C MPDATA,C,mat3_top,5,0.61792*FACT_C MPDATA,C,mat3_top,6,0.63911*FACT_C MPDATA,C,mat3_top,7,0.7672*FACT_C MPDATA,C,mat3_top,8,0.8071*FACT_C MPDATA,C,mat3_top,9,0.74449*FACT_C MPDATA,C,mat3_top,10,0.76564*FACT_C MPDATA,C,mat3_top,11,1.72865*FACT_C MPDATA,C,mat3_top,12,1.35303*FACT_C MPDATA,C,mat3_top,13,2.05203*FACT_C MPDATA,C,mat3_top,14,0.84526*FACT_C MPDATA,C,mat3_top,15,0.88219*FACT_C MPDATA,C,mat3_top,16,0.90248*FACT_C MPDATA,C,mat3_top,17,0.9105*FACT_C MPDATA,C,mat3_top,18,0.91712*FACT_C MPDATA,C,mat3_top,19,0.92188*FACT_C MPDATA,C,mat3_top,20,0.92292*FACT_C MPDATA,C,mat3_top,21,0.92367*FACT_C MPDATA,C,mat3_top,22,0.92438*FACT_C MPDATA,C,mat3_top,23,0.92507*FACT_C MPDATA,C,mat3_top,24,0.92574*FACT_C MPDATA,C,mat3_top,25,0.9264*FACT_C MPDATA,C,mat3_top,26,0.92704*FACT_C MPDATA,C,mat3_top,27,0.92762*FACT_C MPDATA,C,mat3_top,28,0.9282*FACT_C MPDATA,C,mat3_top,29,0.92876*FACT_C MPDATA,C,mat3_top,30,0.92927*FACT_C MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,973.15 MPTEMP,9,975.33443 MPTEMP,10,998.17961 MPTEMP,11,999.8139 MPTEMP,12,1015.91817 MPTEMP,13,1073.15 MPTEMP,14,1173.15 MPTEMP,15,1373.15 MPTEMP,16,1411.33015 MPTEMP,17,1456.42042 MPTEMP,18,1473.15 MPTEMP,19,1573.15 MPTEMP,20,1618.42234 MPTEMP,21,1658.14359 MPTEMP,22,1673.15 MPTEMP,23,1773.15 MPTEMP,24,1873.15 MPTEMP,25,1973.15 MPTEMP,26,2073.15 MPTEMP,27,2173.15 MPTEMP,28,2273.15 MPTEMP,29,2373.15 MPTEMP,30,2473.15 MPTEMP,31,2573.15 MPTEMP,32,2673.15 MPTEMP,33,2773.15 MPTEMP,34,2873.15 MPTEMP,35,2973.15 MPTEMP,36,3073.15 MPTEMP,37,3173.15 MPTEMP,38,3273.15 FACT_KXX=1.0 MPDATA,KXX,mat3_top,1,10.78639865*FACT_KXX MPDATA,KXX,mat3_top,2,11.37679024*FACT_KXX MPDATA,KXX,mat3_top,3,12.15276873*FACT_KXX MPDATA,KXX,mat3_top,4,12.91691904*FACT_KXX MPDATA,KXX,mat3_top,5,13.67015615*FACT_KXX MPDATA,KXX,mat3_top,6,14.41326944*FACT_KXX MPDATA,KXX,mat3_top,7,15.14695328*FACT_KXX MPDATA,KXX,mat3_top,8,15.82635113*FACT_KXX MPDATA,KXX,mat3_top,9,15.8357737*FACT_KXX MPDATA,KXX,mat3_top,10,17.27579801*FACT_KXX MPDATA,KXX,mat3_top,11,17.36736784*FACT_KXX MPDATA,KXX,mat3_top,12,17.63439611*FACT_KXX MPDATA,KXX,mat3_top,13,18.15612414*FACT_KXX MPDATA,KXX,mat3_top,14,19.05002667*FACT_KXX MPDATA,KXX,mat3_top,15,28.46718607*FACT_KXX MPDATA,KXX,mat3_top,16,29.65452812*FACT_KXX MPDATA,KXX,mat3_top,17,30.72842726*FACT_KXX MPDATA,KXX,mat3_top,18,31.07635294*FACT_KXX MPDATA,KXX,mat3_top,19,33.5424953*FACT_KXX MPDATA,KXX,mat3_top,20,35.06679548*FACT_KXX MPDATA,KXX,mat3_top,21,35.46549703*FACT_KXX MPDATA,KXX,mat3_top,22,35.68068478*FACT_KXX MPDATA,KXX,mat3_top,23,37.11465705*FACT_KXX MPDATA,KXX,mat3_top,24,38.54862933*FACT_KXX MPDATA,KXX,mat3_top,25,39.9826016*FACT_KXX MPDATA,KXX,mat3_top,26,41.41657388*FACT_KXX MPDATA,KXX,mat3_top,27,42.85054615*FACT_KXX MPDATA,KXX,mat3_top,28,44.28451843*FACT_KXX MPDATA,KXX,mat3_top,29,45.71849071*FACT_KXX MPDATA,KXX,mat3_top,30,47.15246298*FACT_KXX MPDATA,KXX,mat3_top,31,48.58643526*FACT_KXX MPDATA,KXX,mat3_top,32,50.02040753*FACT_KXX MPDATA,KXX,mat3_top,33,51.45437981*FACT_KXX MPDATA,KXX,mat3_top,34,52.88835208*FACT_KXX MPDATA,KXX,mat3_top,35,54.32232436*FACT_KXX MPDATA,KXX,mat3_top,36,55.75629664*FACT_KXX MPDATA,KXX,mat3_top,37,57.19026892*FACT_KXX MPDATA,KXX,mat3_top,38,58.62424112*FACT_KXX MPTEMP MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,973.15 MPTEMP,9,975.33443 MPTEMP,10,998.17961 MPTEMP,11,999.8139 MPTEMP,12,1015.91817 MPTEMP,13,1073.15 MPTEMP,14,1173.15 MPTEMP,15,1373.15 MPTEMP,16,1411.33015 MPTEMP,17,1456.42042 MPTEMP,18,1473.15 MPTEMP,19,1573.15 MPTEMP,20,1618.42234 MPTEMP,21,1658.14359 MPTEMP,22,1673.15 MPTEMP,23,1773.15 MPTEMP,24,1873.15 MPTEMP,25,1973.15 MPTEMP,26,2073.15 MPTEMP,27,2173.15 MPTEMP,28,2273.15 MPTEMP,29,2373.15 MPTEMP,30,2473.15 MPTEMP,31,2573.15 MPTEMP,32,2673.15 MPTEMP,33,2773.15 MPTEMP,34,2873.15 MPTEMP,35,2973.15 MPTEMP,36,3073.15 MPTEMP,37,3173.15 MPTEMP,38,3273.15 FACT_ENTH=1000.0 MPDATA,ENTH,mat3_top,1,100 MPDATA,ENTH,mat3_top,2,300 MPDATA,ENTH,mat3_top,3,500 MPDATA,ENTH,mat3_top,4,1000 MPDATA,ENTH,mat3_top,5,9.90639*FACT_ENTH MPDATA,ENTH,mat3_top,6,72.74899*FACT_ENTH MPDATA,ENTH,mat3_top,7,137.74765*FACT_ENTH MPDATA,ENTH,mat3_top,8,215.45355*FACT_ENTH MPDATA,ENTH,mat3_top,9,217.21913*FACT_ENTH MPDATA,ENTH,mat3_top,10,253.35072*FACT_ENTH MPDATA,ENTH,mat3_top,11,255.04297*FACT_ENTH MPDATA,ENTH,mat3_top,12,268.8865*FACT_ENTH MPDATA,ENTH,mat3_top,13,311.14525*FACT_ENTH MPDATA,ENTH,mat3_top,14,386.64614*FACT_ENTH MPDATA,ENTH,mat3_top,15,678.20587*FACT_ENTH MPDATA,ENTH,mat3_top,16,755.79953*FACT_ENTH MPDATA,ENTH,mat3_top,17,814.53698*FACT_ENTH MPDATA,ENTH,mat3_top,18,836.66302*FACT_ENTH MPDATA,ENTH,mat3_top,19,1000.295*FACT_ENTH MPDATA,ENTH,mat3_top,20,1108.57351*FACT_ENTH MPDATA,ENTH,mat3_top,21,1159.07857*FACT_ENTH MPDATA,ENTH,mat3_top,22,1171.72341*FACT_ENTH MPDATA,ENTH,mat3_top,23,1258.08278*FACT_ENTH MPDATA,ENTH,mat3_top,24,1347.6612*FACT_ENTH MPDATA,ENTH,mat3_top,25,1438.32037*FACT_ENTH MPDATA,ENTH,mat3_top,26,1529.715*FACT_ENTH MPDATA,ENTH,mat3_top,27,1621.68255*FACT_ENTH MPDATA,ENTH,mat3_top,28,1713.93227*FACT_ENTH MPDATA,ENTH,mat3_top,29,1806.26271*FACT_ENTH MPDATA,ENTH,mat3_top,30,1898.66532*FACT_ENTH MPDATA,ENTH,mat3_top,31,1991.13773*FACT_ENTH MPDATA,ENTH,mat3_top,32,2083.67828*FACT_ENTH MPDATA,ENTH,mat3_top,33,2176.28536*FACT_ENTH MPDATA,ENTH,mat3_top,34,2268.95727*FACT_ENTH MPDATA,ENTH,mat3_top,35,2361.69078*FACT_ENTH MPDATA,ENTH,mat3_top,36,2454.48176*FACT_ENTH MPDATA,ENTH,mat3_top,37,2547.33011*FACT_ENTH MPDATA,ENTH,mat3_top,38,2640.23601*FACT_ENTH mptemp *SET,FACT_C *SET,FACT_DENS *SET,FACT_ENTH *SET,FACT_KXX !mat_h13=2 MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,875.01567 MPTEMP,9,973.15 MPTEMP,10,1073.15 MPTEMP,11,1092.32776 MPTEMP,12,1117.50602 MPTEMP,13,1155.61939 MPTEMP,14,1173.15 MPTEMP,15,1273.15 MPTEMP,16,1368.65072 MPTEMP,17,1373.15 MPTEMP,18,1428.82356 MPTEMP,19,1437.90645 MPTEMP,20,1473.15 MPTEMP,21,1573.15 MPTEMP,22,1655.59955 MPTEMP,23,1655.80609 MPTEMP,24,1673.15 MPTEMP,25,1712.75856 MPTEMP,26,1723.71087 MPTEMP,27,1761.69286 MPTEMP,28,1773.15 MPTEMP,29,1873.15 MPTEMP,30,1973.15 MPTEMP,31,2073.15 MPTEMP,32,2173.15 MPTEMP,33,2273.15 MPTEMP,34,2373.15 MPTEMP,35,2473.15 MPTEMP,36,2573.15 MPTEMP,37,2673.15 MPTEMP,38,2773.15 MPTEMP,39,2873.15 MPTEMP,40,2973.15 MPTEMP,41,3073.15 MPTEMP,42,3173.15 MPTEMP,43,3273.15 FACT_DENS=1000.0 MPDATA,DENS,mat_h13,1,7.805597106*FACT_DENS MPDATA,DENS,mat_h13,2,7.784283775*FACT_DENS MPDATA,DENS,mat_h13,3,7.754637969*FACT_DENS MPDATA,DENS,mat_h13,4,7.723617555*FACT_DENS MPDATA,DENS,mat_h13,5,7.691255191*FACT_DENS MPDATA,DENS,mat_h13,6,7.657584709*FACT_DENS MPDATA,DENS,mat_h13,7,7.622641022*FACT_DENS MPDATA,DENS,mat_h13,8,7.621953051*FACT_DENS MPDATA,DENS,mat_h13,9,7.586668528*FACT_DENS MPDATA,DENS,mat_h13,10,7.549354465*FACT_DENS MPDATA,DENS,mat_h13,11,7.542039185*FACT_DENS MPDATA,DENS,mat_h13,12,7.618098094*FACT_DENS MPDATA,DENS,mat_h13,13,7.595766337*FACT_DENS MPDATA,DENS,mat_h13,14,7.586050348*FACT_DENS MPDATA,DENS,mat_h13,15,7.530676272*FACT_DENS MPDATA,DENS,mat_h13,16,7.477851745*FACT_DENS MPDATA,DENS,mat_h13,17,7.475536509*FACT_DENS MPDATA,DENS,mat_h13,18,7.446875484*FACT_DENS MPDATA,DENS,mat_h13,19,7.442316523*FACT_DENS MPDATA,DENS,mat_h13,20,7.424166336*FACT_DENS MPDATA,DENS,mat_h13,21,7.372437013*FACT_DENS MPDATA,DENS,mat_h13,22,7.329281374*FACT_DENS MPDATA,DENS,mat_h13,23,7.328732933*FACT_DENS MPDATA,DENS,mat_h13,24,7.31737591*FACT_DENS MPDATA,DENS,mat_h13,25,7.255845915*FACT_DENS MPDATA,DENS,mat_h13,26,7.178741338*FACT_DENS MPDATA,DENS,mat_h13,27,7.037752863*FACT_DENS MPDATA,DENS,mat_h13,28,7.028857964*FACT_DENS MPDATA,DENS,mat_h13,29,6.949761253*FACT_DENS MPDATA,DENS,mat_h13,30,6.868208899*FACT_DENS MPDATA,DENS,mat_h13,31,6.784433655*FACT_DENS MPDATA,DENS,mat_h13,32,6.69866536*FACT_DENS MPDATA,DENS,mat_h13,33,6.611129766*FACT_DENS MPDATA,DENS,mat_h13,34,6.522047477*FACT_DENS MPDATA,DENS,mat_h13,35,6.431632985*FACT_DENS MPDATA,DENS,mat_h13,36,6.340093896*FACT_DENS MPDATA,DENS,mat_h13,37,6.247630215*FACT_DENS MPDATA,DENS,mat_h13,38,6.154433763*FACT_DENS MPDATA,DENS,mat_h13,39,6.060687713*FACT_DENS MPDATA,DENS,mat_h13,40,5.966566279*FACT_DENS MPDATA,DENS,mat_h13,41,5.872234406*FACT_DENS MPDATA,DENS,mat_h13,42,5.777847649*FACT_DENS MPDATA,DENS,mat_h13,43,5.683552083*FACT_DENS MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,973.15 MPTEMP,9,1073.15 MPTEMP,10,1173.15 MPTEMP,11,1273.15 MPTEMP,12,1373.15 MPTEMP,13,1473.15 MPTEMP,14,1573.15 MPTEMP,15,1673.15 MPTEMP,16,1773.15 MPTEMP,17,1873.15 MPTEMP,18,1973.15 MPTEMP,19,2073.15 MPTEMP,20,2173.15 MPTEMP,21,2273.15 MPTEMP,22,2373.15 MPTEMP,23,2473.15 MPTEMP,24,2573.15 MPTEMP,25,2673.15 MPTEMP,26,2773.15 MPTEMP,27,2873.15 MPTEMP,28,2973.15 MPTEMP,29,3073.15 MPTEMP,30,3173.15 MPTEMP,31,3273.15 FACT_C=1000.0 MPDATA,C,mat_h13,1,0.4446*FACT_C MPDATA,C,mat_h13,2,0.47537*FACT_C MPDATA,C,mat_h13,3,0.51395*FACT_C MPDATA,C,mat_h13,4,0.55669*FACT_C MPDATA,C,mat_h13,5,0.60819*FACT_C MPDATA,C,mat_h13,6,0.67373*FACT_C MPDATA,C,mat_h13,7,0.81549*FACT_C MPDATA,C,mat_h13,8,0.95838*FACT_C MPDATA,C,mat_h13,9,0.86826*FACT_C MPDATA,C,mat_h13,10,0.67803*FACT_C MPDATA,C,mat_h13,11,0.72558*FACT_C MPDATA,C,mat_h13,12,0.64371*FACT_C MPDATA,C,mat_h13,13,0.66086*FACT_C MPDATA,C,mat_h13,14,0.67942*FACT_C MPDATA,C,mat_h13,15,0.93276*FACT_C MPDATA,C,mat_h13,16,0.80655*FACT_C MPDATA,C,mat_h13,17,0.82573*FACT_C MPDATA,C,mat_h13,18,0.82777*FACT_C MPDATA,C,mat_h13,19,0.82957*FACT_C MPDATA,C,mat_h13,20,0.83103*FACT_C MPDATA,C,mat_h13,21,0.83132*FACT_C MPDATA,C,mat_h13,22,0.83153*FACT_C MPDATA,C,mat_h13,23,0.83173*FACT_C MPDATA,C,mat_h13,24,0.83192*FACT_C MPDATA,C,mat_h13,25,0.8321*FACT_C MPDATA,C,mat_h13,26,0.83226*FACT_C MPDATA,C,mat_h13,27,0.83241*FACT_C MPDATA,C,mat_h13,28,0.83248*FACT_C MPDATA,C,mat_h13,29,0.83253*FACT_C MPDATA,C,mat_h13,30,0.83257*FACT_C MPDATA,C,mat_h13,31,0.83262*FACT_C MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,875.01567 MPTEMP,9,973.15 MPTEMP,10,1073.15 MPTEMP,11,1092.32776 MPTEMP,12,1117.50602 MPTEMP,13,1155.61939 MPTEMP,14,1173.15 MPTEMP,15,1273.15 MPTEMP,16,1368.65072 MPTEMP,17,1373.15 MPTEMP,18,1428.82356 MPTEMP,19,1437.90645 MPTEMP,20,1473.15 MPTEMP,21,1573.15 MPTEMP,22,1655.59955 MPTEMP,23,1655.80609 MPTEMP,24,1673.15 MPTEMP,25,1712.75856 MPTEMP,26,1723.71087 MPTEMP,27,1761.69286 MPTEMP,28,1773.15 MPTEMP,29,1873.15 MPTEMP,30,1973.15 MPTEMP,31,2073.15 MPTEMP,32,2173.15 MPTEMP,33,2273.15 MPTEMP,34,2373.15 MPTEMP,35,2473.15 MPTEMP,36,2573.15 MPTEMP,37,2673.15 MPTEMP,38,2773.15 MPTEMP,39,2873.15 MPTEMP,40,2973.15 MPTEMP,41,3073.15 MPTEMP,42,3173.15 MPTEMP,43,3273.15 FACT_ENTH=1000.0 MPDATA,ENTH,mat_h13,1,1.22414*FACT_ENTH MPDATA,ENTH,mat_h13,2,19.30644*FACT_ENTH MPDATA,ENTH,mat_h13,3,68.76324*FACT_ENTH MPDATA,ENTH,mat_h13,4,122.24202*FACT_ENTH MPDATA,ENTH,mat_h13,5,180.39682*FACT_ENTH MPDATA,ENTH,mat_h13,6,244.34854*FACT_ENTH MPDATA,ENTH,mat_h13,7,315.86824*FACT_ENTH MPDATA,ENTH,mat_h13,8,317.39159*FACT_ENTH MPDATA,ENTH,mat_h13,9,403.58612*FACT_ENTH MPDATA,ENTH,mat_h13,10,500.98604*FACT_ENTH MPDATA,ENTH,mat_h13,11,517.40312*FACT_ENTH MPDATA,ENTH,mat_h13,12,571.92769*FACT_ENTH MPDATA,ENTH,mat_h13,13,600.77262*FACT_ENTH MPDATA,ENTH,mat_h13,14,612.59991*FACT_ENTH MPDATA,ENTH,mat_h13,15,682.70577*FACT_ENTH MPDATA,ENTH,mat_h13,16,754.59285*FACT_ENTH MPDATA,ENTH,mat_h13,17,757.48782*FACT_ENTH MPDATA,ENTH,mat_h13,18,793.60412*FACT_ENTH MPDATA,ENTH,mat_h13,19,799.64554*FACT_ENTH MPDATA,ENTH,mat_h13,20,822.84589*FACT_ENTH MPDATA,ENTH,mat_h13,21,889.90497*FACT_ENTH MPDATA,ENTH,mat_h13,22,946.62651*FACT_ENTH MPDATA,ENTH,mat_h13,23,947.00369*FACT_ENTH MPDATA,ENTH,mat_h13,24,961.23459*FACT_ENTH MPDATA,ENTH,mat_h13,25,1026.53923*FACT_ENTH MPDATA,ENTH,mat_h13,26,1098.55322*FACT_ENTH MPDATA,ENTH,mat_h13,27,1247.8653*FACT_ENTH MPDATA,ENTH,mat_h13,28,1257.07667*FACT_ENTH MPDATA,ENTH,mat_h13,29,1339.20152*FACT_ENTH MPDATA,ENTH,mat_h13,30,1421.87806*FACT_ENTH MPDATA,ENTH,mat_h13,31,1504.74751*FACT_ENTH MPDATA,ENTH,mat_h13,32,1587.78077*FACT_ENTH MPDATA,ENTH,mat_h13,33,1670.90225*FACT_ENTH MPDATA,ENTH,mat_h13,34,1754.0446*FACT_ENTH MPDATA,ENTH,mat_h13,35,1837.20707*FACT_ENTH MPDATA,ENTH,mat_h13,36,1920.38899*FACT_ENTH MPDATA,ENTH,mat_h13,37,2003.58942*FACT_ENTH MPDATA,ENTH,mat_h13,38,2086.80705*FACT_ENTH MPDATA,ENTH,mat_h13,39,2170.04013*FACT_ENTH MPDATA,ENTH,mat_h13,40,2253.28445*FACT_ENTH MPDATA,ENTH,mat_h13,41,2336.53424*FACT_ENTH MPDATA,ENTH,mat_h13,42,2419.78918*FACT_ENTH MPDATA,ENTH,mat_h13,43,2503.04912*FACT_ENTH MPTEMP MPTEMP,1,298.15 MPTEMP,2,373.15 MPTEMP,3,473.15 MPTEMP,4,573.15 MPTEMP,5,673.15 MPTEMP,6,773.15 MPTEMP,7,873.15 MPTEMP,8,875.01567 MPTEMP,9,973.15 MPTEMP,10,1073.15 MPTEMP,11,1092.32776 MPTEMP,12,1117.50602 MPTEMP,13,1155.61939 MPTEMP,14,1173.15 MPTEMP,15,1273.15 MPTEMP,16,1368.65072 MPTEMP,17,1373.15 MPTEMP,18,1428.82356 MPTEMP,19,1437.90645 MPTEMP,20,1473.15 MPTEMP,21,1573.15 MPTEMP,22,1655.59955 MPTEMP,23,1655.80609 MPTEMP,24,1673.15 MPTEMP,25,1712.75856 MPTEMP,26,1723.71087 MPTEMP,27,1761.69286 MPTEMP,28,1773.15 MPTEMP,29,1873.15 MPTEMP,30,1973.15 MPTEMP,31,2073.15 MPTEMP,32,2173.15 MPTEMP,33,2273.15 MPTEMP,34,2373.15 MPTEMP,35,2473.15 MPTEMP,36,2573.15 MPTEMP,37,2673.15 MPTEMP,38,2773.15 MPTEMP,39,2873.15 MPTEMP,40,2973.15 MPTEMP,41,3073.15 MPTEMP,42,3173.15 MPTEMP,43,3273.15 FACT_KXX=1.0 MPDATA,KXX,mat_h13,1,26.81964092*FACT_KXX MPDATA,KXX,mat_h13,2,29.09009252*FACT_KXX MPDATA,KXX,mat_h13,3,31.50733865*FACT_KXX MPDATA,KXX,mat_h13,4,32.93937262*FACT_KXX MPDATA,KXX,mat_h13,5,33.28016053*FACT_KXX MPDATA,KXX,mat_h13,6,32.69629538*FACT_KXX MPDATA,KXX,mat_h13,7,31.57973044*FACT_KXX MPDATA,KXX,mat_h13,8,31.5404691*FACT_KXX MPDATA,KXX,mat_h13,9,29.84011757*FACT_KXX MPDATA,KXX,mat_h13,10,28.854242*FACT_KXX MPDATA,KXX,mat_h13,11,28.76518791*FACT_KXX MPDATA,KXX,mat_h13,12,27.07334962*FACT_KXX MPDATA,KXX,mat_h13,13,27.49975399*FACT_KXX MPDATA,KXX,mat_h13,14,27.6958099*FACT_KXX MPDATA,KXX,mat_h13,15,28.83582751*FACT_KXX MPDATA,KXX,mat_h13,16,29.95437684*FACT_KXX MPDATA,KXX,mat_h13,17,30.00814562*FACT_KXX MPDATA,KXX,mat_h13,18,30.67351431*FACT_KXX MPDATA,KXX,mat_h13,19,30.78679377*FACT_KXX MPDATA,KXX,mat_h13,20,31.20782738*FACT_KXX MPDATA,KXX,mat_h13,21,32.40185987*FACT_KXX MPDATA,KXX,mat_h13,22,33.38530275*FACT_KXX MPDATA,KXX,mat_h13,23,33.38649655*FACT_KXX MPDATA,KXX,mat_h13,24,33.58165321*FACT_KXX MPDATA,KXX,mat_h13,25,33.80010711*FACT_KXX MPDATA,KXX,mat_h13,26,33.74368979*FACT_KXX MPDATA,KXX,mat_h13,27,32.97180222*FACT_KXX MPDATA,KXX,mat_h13,28,33.17149632*FACT_KXX MPDATA,KXX,mat_h13,29,34.91446362*FACT_KXX MPDATA,KXX,mat_h13,30,36.65743091*FACT_KXX MPDATA,KXX,mat_h13,31,38.4003982*FACT_KXX MPDATA,KXX,mat_h13,32,40.1433655*FACT_KXX MPDATA,KXX,mat_h13,33,41.8863328*FACT_KXX MPDATA,KXX,mat_h13,34,43.62930006*FACT_KXX MPDATA,KXX,mat_h13,35,45.37226737*FACT_KXX MPDATA,KXX,mat_h13,36,47.11523464*FACT_KXX MPDATA,KXX,mat_h13,37,48.85820192*FACT_KXX MPDATA,KXX,mat_h13,38,50.60116912*FACT_KXX MPDATA,KXX,mat_h13,39,52.34413634*FACT_KXX MPDATA,KXX,mat_h13,40,54.0871035*FACT_KXX MPDATA,KXX,mat_h13,41,55.8300706*FACT_KXX MPDATA,KXX,mat_h13,42,57.57303761*FACT_KXX MPDATA,KXX,mat_h13,43,59.31600449*FACT_KXX MPTEMP *SET,FACT_C *SET,FACT_DENS *SET,FACT_ENTH *SET,FACT_KXX |
3楼2023-08-04 22:58:20
【答案】应助回帖
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怎么个不行,请你具体说明一下,有什么警告和/或错误信息。 简单看了一下你的命令流,发现几个问题如下: 在循环中,/post1...finishi 之后,持续近日求解模块,执行了重启动,但是接下来的 solve 被你注解掉了,即没有再求解。然后回到循环开始处有一次 solve,然后有有 /solu 。这样的安排不知道软件是如何执行的。 总值,你的命令流中有多处 /solu 命令在 solve 之后的情况,而按照 ANSYS 的规定,每一次进入 /solu 都会被认为是开始一个新的分析,将从头开始进行分析,对你的情况就有可能出现一线不到的问题。所以你需要整理一下你的 /solu 命令,不要随处执行这一命令,要去掉多余的 /solu 命令。 其次,你的材料属性定义放在命令流的最后,这也是不对的。你需要把它们移到合适的位置。 |
4楼2023-08-07 09:18:48
