ANSYS应用——桥梁球铰建模计算命令流

（完整版）ANSYS最常用命令流+中文注释（超级大全）ANSYS最常用命令流+中文注释VSBV, NV1, NV2, SEPO, KEEP1, KEEP2 —Subtracts volumes from volumes，用于2个solid相减操作，最终目的是要nv1-nv2=?通过后面的参数设置，可以得到很多种情况：sepo项是2个体的边界情况，当缺省的时候，是表示2个体相减后，其边界是公用的，当为sepo的时候，表示相减后，2个体有各自的独立边界。

keep1与keep2是询问相减后，保留哪个体？当第一个为keep时，保留nv1,都缺省的时候，操作结果最终只有一个体，比如：vsbv,1,2,sepo,,keep,表示执行1-2的操作，结果是保留体2，体1被删除，还有一个1-2的结果体，现在一共是2个体（即1-2与2），且都各自有自己的边界。

如vsbv,1,2,,keep,,则为1-2后，剩下体1和体1-2，且2个体在边界处公用。

同理，将v换成a 及l是对面和线进行减操作！mp,lab, mat, co, c1,…….c4 定义材料号及特性lab: 待定义的特性项目（ex,alpx,reft,prxy,nuxy,gxy,mu,dens）ex: 弹性模量nuxy: 小泊松比alpx: 热膨胀系数reft: 参考温度reft: 参考温度prxy: 主泊松比gxy: 剪切模量mu: 摩擦系数dens: 质量密度mat: 材料编号（缺省为当前材料号）co: 材料特性值，或材料之特性，温度曲线中的常数项c1-c4: 材料的特性-温度曲线中1次项，2次项，3次项，4次项的系数定义DP材料：首先要定义EX和泊松比：MP，EX，MA T，……MP，NUXY，MAT，……定义DP材料单元表（这里不考虑温度）：TB，DP，MA T进入单元表并编辑添加单元表：TBDATA，1，CTBDATA，2，ψTBDATA，3，……如定义：EX=1E8，NUXY=0.3，C=27，ψ=45的命令如下：MP，EX，1，1E8MP，NUXY，1，0.3TB，DP，1TBDATA，1，27TBDATA，2，45这里要注意的是，在前处理的最初，要将角度单位转化到“度”，即命令：*afun,degVSEL, Type, Item, Comp, VMIN, VMAX, VINC, KSWP Type，是选择的方式，有选择（s）,补选（a），不选(u)，全选(all)、反选（inv）等,其余方式不常用Item, Comp 是选取的原则以及下面的子项如volu 就是根据实体编号选择，loc 就是根据坐标选取，它的comp就可以是实体的某方向坐标！其余还有材料类型、实常数等MIN, VMAX, VINC，这个就不必说了吧！,例：vsel,s,volu,,14vsel,a,volu,,17,23,2上面的命令选中了实体编号为14，17，19，21，23的五个实体VDELE, NV1, NV2, NINC, KSWP: 删除未分网格的体nv1:初始体号nv2:最终的体号ninc:体号之间的间隔kswp=0:只删除体kswp=1:删除体及组成关键点,线面如果nv1=all,则nv2,ninc不起作用其后面常常跟着一条显示命令VPLO,或aplo,nplo,这个湿没有参数的命令，输入后直接回车，就可以显示刚刚选择了的体、面或节点，很实用的哦！Nsel, type, item, comp, vmin, vmax, vinc, kabs 选择一组节点为下一步做准备Type: S: 选择一组新节点（缺省）R: 在当前组中再选择A: 再选一组附加于当前组U: 在当前组中不选一部分All: 恢复为选中所有None: 全不选Inve: 反向选择Stat: 显示当前选择状态Item: loc: 坐标node: 节点号Comp: 分量Vmin,vmax,vinc: ITEM范围Kabs: “0” 使用正负号“1”仅用绝对值下面是单元生死第一个载荷步中命令输入示例：!第一个载荷步TIME,... !设定时间值（静力分析选项）NLGEOM,ON !打开大位移效果NROPT,FULL !设定牛顿－拉夫森选项ESTIF,... !设定非缺省缩减因子（可选）ESEL,... !选择在本载荷步中将不激活的单元EKILL,... !不激活选择的单元ESEL,S,LIVE !选择所有活动单元NSLE,S !选择所有活动结点NSEL,INVE !选择所有非活动结点（不与活动单元相连的结点）D,ALL,ALL,0 !约束所有不活动的结点自由度（可选）NSEL,ALL !选择所有结点ESEL,ALL !选择所有单元D,... !施加合适的约束F,... !施加合适的活动结点自由度载荷SF,... !施加合适的单元载荷BF,... !施加合适的体载荷SA VESOLVE请参阅TIME,NLGEOM,NROPT,ESTIF,ESEL,EKILL,NSLE,NSEL,D, F,SF和BF命令得到更详细的解释。

连续梁桥ansys命令流建模求解!!连续梁桥/prep7et,1,4定义梁单元et,2,21 定义mass21单元!!定义粱材料 !!泊松比!!密度mp,ex,2,3.45e10 !!直线段梁材料和1M段梁材料mp,nuxy,2,0.2mp,dens,2,3302.153125mp,ex,3,3.45e10mp,nuxy,3,0.2mp,dens,3,3301.658695mp,ex,4,3.45e10mp,nuxy,4,0.2mp,dens,4,3299.906778mp,ex,5,3.45e10mp,nuxy,5,0.2mp,dens,5,3298.327219mp,ex,6,3.45e10mp,nuxy,6,0.2mp,dens,6,3292.351605mp,ex,7,3.45e10mp,nuxy,7,0.2mp,dens,7,3284.137255 mp,ex,8,3.45e10mp,nuxy,8,0.2mp,dens,8,3271.802136 mp,ex,9,3.45e10mp,nuxy,9,0.2mp,dens,9,3260.41903 mp,ex,10,3.45e10mp,nuxy,10,0.2mp,dens,10,3248.193657 mp,ex,11,3.45e10mp,nuxy,11,0.2mp,dens,11,3235.117644 mp,ex,12,3.45e10mp,nuxy,12,0.2mp,dens,12,3221.585664 mp,ex,13,3.45e10mp,nuxy,13,0.2mp,dens,13,3208.826871 mp,ex,14,3.45e10mp,nuxy,14,0.2mp,dens,14,3194.279207 mp,ex,15,3.45e10mp,nuxy,15,0.2mp,dens,15,3179.924673 mp,ex,16,3.45e10mp,nuxy,16,0.2mp,dens,16,3166.445716 mp,ex,17,3.45e10mp,nuxy,17,0.2mp,dens,17,3152.555731 mp,ex,18,3.45e10mp,nuxy,18,0.2mp,dens,18,3138.312105 mp,ex,19,3.45e10mp,nuxy,19,0.2mp,dens,19,3124.795334 mp,ex,20,3.45e10mp,nuxy,20,0.2mp,dens,20,3110.7135 mp,ex,21,3.45e10mp,nuxy,21,0.2mp,dens,21,3097.080875 mp,ex,22,3.45e10mp,nuxy,22,0.2mp,dens,22,3083.186268 mp,ex,23,3.45e10mp,nuxy,23,0.2mp,dens,23,3068.968824 mp,ex,24,3.45e10mp,nuxy,24,0.2mp,dens,24,3055.612436 mp,ex,25,3.45e10mp,nuxy,25,0.2mp,dens,25,3045.857147 mp,ex,26,3.45e10mp,nuxy,26,0.2mp,dens,26,3035.174287 mp,ex,27,3.45e10mp,nuxy,27,0.2mp,dens,27,3026.696551 mp,ex,28,3.45e10mp,nuxy,28,0.2mp,dens,28,3015.795365mp,ex,29,3.45e10mp,nuxy,29,0.2mp,dens,29,3007.710181mp,ex,30,3.45e10mp,nuxy,30,0.2mp,dens,30,3000.513837mp,ex,31,3.45e10mp,nuxy,31,0.2mp,dens,31,2978.611375mp,ex,32,3.45e10mp,nuxy,32,0.2mp,dens,32,2958.618861mp,ex,33,3.45e10mp,nuxy,33,0.2mp,dens,33,2937.888072mp,ex,34,3.45e10mp,nuxy,34,0.2mp,dens,34,2919.475751mp,ex,35,3.45e10mp,nuxy,35,0.2mp,dens,35,2903.359983!!6700处mp,ex,36,3.45e10mp,nuxy,36,0.2mp,dens,36,3302.153125!!可以不用mp,ex,37,3.45e10mp,nuxy,37,0.2mp,dens,37,3302.153125mp,ex,38,3.45e10!!-700处梁mp,nuxy,38,0.2mp,dens,38,3180.578901mp,ex,39,3.45e10!!边支点横隔板mp,nuxy,39,0.2mp,dens,39,2868.674818mp,ex,40,3.45e10 !!合拢段横隔板mp,nuxy,40,0.2mp,dens,40,2868.674818mp,ex,41,3.45e10 !!中支点横隔板mp,nuxy,41,0.2mp,dens,41,2757.470588mp,ex,1,3.25e10 定义墩材料属性mp,nuxy,1,0.2mp,dens,1,2650!!定义实常数编号 ,面积,IYY,IZZ,宽,高,,RMORE,,抗扭惯距!!主梁截面r,1,11.851,28.52,215.151,16.95,4,,!!直线段r,2,11.862,28.57,215.458,16.95,4.001,, !!截面100处rmore,,56.905r,3,11.871,28.91,215.622,16.95,4.009,,rmore,,57.345r,4,11.903,29.03,215.78,16.95,4.025,,rmore,,57.938r,5,11.932,29.626,215.88,16.95,4.049,,rmore,,58.502r,6,12.043,30.402,217.093,16.95,4.081,,rmore,,59.768r,7,12.199,31.407,218.899,16.95,4.121,,rmore,,61.445r,8,12.441,32.716,221.806,16.95,4.169,,rmore,,63.652r,9,12.673,34.21,224.418,16.95,4.226,,rmore,,66.058r,10,12.932,35.94,227.279,16.95,4.290,,rmore,,68.801r,11,13.221,37.941,230.512,16.95,4.362,, rmore,,71.948r,12,13.534,40.233,233.872,16.95,4.442,,r,13,13.843,42.747,237.133,16.95,4.530,, rmore,,79.173r,14,14.213,45.688,241.054,16.95,4.627,, rmore,,83.484r,15,14.598,48.964,245.004,16.95,4.731,, rmore,,88.155r,16,14.979,52.547,248.817,16.95,4.843,, rmore,,93.111r,17,15.393,56.562,252.927,16.95,4.963,, rmore,,98.528r,18,15.842,61.069,257.347,16.95,5.092,, rmore,,104.47r,19,16.293,65.992,261.673,16.95,5.228,, rmore,,110.742r,20,16.791,71.484,266.426,16.95,5.372,, rmore,,117.648r,21,17.303,77.568,271.225,16.95,5.525,, rmore,,124.861r,22,17.858,84.282,276.363,16.95,5.685,, rmore,,132.631r,23,18.464,91.768,281.923,16.95,5.854,,r,24,19.072,99.936,287.364,16.95,6.03,, rmore,,149.875r,25,19.524,108.482,291.159,16.95,6.214,, rmore,,158.46r,26,20.084,118.046,295.597,16.95,6.407,, rmore,,167.857r,27,20.536,128.202,298.9,16.95,6.607,, rmore,,177.137r,28,21.148,139.669,303.86,16.95,6.816,, rmore,,187.495r,29,21.626,151.737,307.186,16.95,7.032,, rmore,,197.507r,30,22.07,164.734,310.057,16.95,7.257,, rmore,,207.681r,31,23.541,182.225,323.433,16.95,7.490,, rmore,,223.527r,32,25.066,201.932,336.467,16.95,7.730,, rmore,,241.046r,33,26.871,223.700,351.448,16.95,7.979,, rmore,,257.765r,34,28.707,247.928,365.663,16.95,8.235,,r,35,30.533,274.36,378.934,16.95,8.500,, rmore,,294.461r,46,14.58,35.599,238.702,16.95,4,, rmore,,238.702!!横隔板截面!!边支点r,36,35.376,54.393,339.84,16.95,4.00,, rmore,,128.747!!合拢段r,37,35.376,53.405,339.84,16.95,4.00,, rmore,,127.015!!中支点r,38,71.981,454.871,543.871,16.95,8.5,, rmore,,684.565!!主墩截面!!截面1(实心)r,39,39.932,82.876,212.138,8,5,, rmore,,203.709!!截面(1/2空心)r,40,23.863,72.571,168.024,8,5,, rmore,,168.491!!截面3空心)r,41,14.236,52.366,114.529,8,5,, rmore,,116.391!!边墩截面!!截面1(实心1)r,42,36.113,66.217,177.703,7.7,4.7,, rmore,,165.119!!截面2(空心1/2)r,43,20.753,35.743,99.711,7,4,, rmore,,88.486!!截面3(空心)r,44,9.103,16.082,45.911,6.5,3.5,, rmore,,39.39!!截面4(实心2)r,45,22.673,23.005,79.361,6.5,3.5,, rmore,,61.527!!截面5(1/2)空心2r,49,16,21.958,68.708,6.5,3.5,, rmore,,55.682!!建立第一跨梁节点xlatan1.029/80n,1,0,n,2,2.25,2.25*xln,3,6,6*xln,4,9,9*xln,5,11,11*xln,6,13,13*xl-0.0045 n,7,15,15*xl-0.0135 n,8,17,17*xl-0.023 n,9,19,19*xl-0.038 n,10,21,21*xl-0.062 n,11,23,23*xl-0.092 n,12,25,25*xl-0.1275 n,13,27,27*xl-0.167 n,14,29,29*xl-0.2115 n,15,31,31*xl-0.261 n,16,33,33*xl-0.314 n,17,35,35*xl-0.3715 n,18,37,37*xl-0.435 n,19,39,39*xl-0.502 n,20,41,41*xl-0.5725 n,21,43,43*xl-0.648 n,22,45,45*xl-0.728 n,23,47,47*xl-0.8115n,24,49,49*xl-0.8995n,25,51,51*xl-0.9925n,26,53,53*xl-1.0895n,27,55,55*xl-1.1905n,28,57,57*xl-1.325n,29,59,59*xl-1.433n,30,61,61*xl-1.5155n,31,63,63*xl-1.6325n,32,65,65*xl-1.7535n,33,67,67*xl-1.879n,34,69,69*xl-2.007n,35,71,71*xl-2.1325n,36,73,73*xl-2.2635n,37,75,75*xl-2.399n,38,77,77*xl-2.533n,39,79,79*xl-2.631xl2atan0.7/140local,11,0,80,80*xl-2.631,0,xl2nsym,x,35,5,39,1!!复制粱结点从5到39结点编号增加35 csys,0n,75,149.6,0.15852local,12,0,150,0.15852,0,xl2nsym,x,36,40,75,1local,13,0,220,-1.6027,0nsym,x,111,1,111,1csys,0n,500,80,80*xl-2.631n,501,220,-1.6027n,502,360,-1.6148csys,0 !!返回普通坐标!!建立墩结点!!PM112边墩截面n,300,0,-2.165 !!实心)2米长n,301,0,-4.365n,302,0,-9.365!!(1/2空心)5M长n,303,0,-13.365n,304,0,-17.365n,305,0,-21.365 n,306,0,-24.93n,307,0,-28.93n,308,0,-30.63!!PM113主敦截面n,309,80,0.5-6.665-0.8n,310,80,0.5-3.5-6.665!!实心3.5mn,311,80,0.5-8.5-6.665!!1/2空心)5mn,312,80,0.5-12.5-6.665!!空心)4Mn,313,80,0.5-16.5-6.665 !!n,314,80,0.5-18.594-6.665n,315,80,0.5-22.594-6.665n,316,80,0.5-24.594-6.665+0.4!实心)2m!!pm114主墩截面n,350,220,0.5-6.665-0.8 !n,351,220,0.5-3.5-6.665 !!1/2空心5mn,352,220,0.5-8.5-6.665!!空心)5mn,353,220,0.5-12.5-6.665 !!空心)6.064Mn,354,220,0.5-16.5-6.665!!1/2空心)4Mn,355,220,0.5-19.294-6.665!!实心)2Mn,356,220,0.5-23.294-6.665n,357,220,0.5-25.294-6.665+0.4local,13,0,220,-1.6027,0nsym,x,17,300,316,1csys,0!!生成边跨1mat,39real,36e,1,2mat,38real,46e,2,3mat,2real,1e,3,4e,4,5mat,2real,2e,5,6*do,i,3,35,1 mat,ireal,ie,3+i,4+i*enddo*do,i,3,35,1 mat,ireal,ie,38+i,39+i *enddo*do,i,3,35,1 mat,ireal,ie,74+i,75+i *enddo*do,i,3,35,1 mat,ireal,ie,114+i,115+i *enddo*do,i,3,35,1 mat,ireal,ie,149+i,150+i *enddo*do,i,3,35,1 mat,ireal,ie,185+i,186+i *enddomat,41real,38e,39,500 mat,41real,38e,500,74 mat,2real,2 e,41,40 mat,2 real,1 e,40,75 mat,40 real,37 e,75,111 mat,2 real,1 e,111,76 mat,2 real,2 e,76,77 mat,41 real,38 e,110,501 mat,41 real,38 e,501,221 mat,2 real,2e,188,187 mat,2 real,1 e,187,222 mat,41 real,37 e,222,186 mat,2 real,1 e,186,151 mat,2 real,2 e,151,152 mat,41 real,38 e,185,502 mat,41 real,38 e,502,150 mat,39 real,36 e,112,113mat,38 real,46 e,113,114 mat,2 real,1 e,114,115 e,115,116 mat,2 real,2 e,116,117 !!建立桥墩!!边墩1 mat,1 real,42 e,300,301 mat,1 real,43 e,301,302 mat,1 real,44 e,302,303 mat,1e,303,304 mat,1 real,44 e,304,305 mat,1 real,44 e,305,306 mat,1 real,49 e,306,307 mat,1 real,45 e,307,308 !!主墩1 mat,1 real,39 e,309,310 mat,1 real,40 e,310,311 mat,1e,311,312 mat,1 real,41 e,312,313 mat,1 real,41 e,313,314 mat,1 real,40 e,314,315 mat,1 real,39 e,315,316 !!主墩2 mat,1 real,39 e,350,351 mat,1 real,40 e,351,352 mat,1e,352,353 mat,1 real,41 e,353,354 mat,1 real,41 e,354,355 mat,1 real,40 e,355,356 mat,1 real,39 e,356,357 !!主墩3 mat,1 real,39 e,326,327 mat,1 real,40 e,327,328 mat,1e,328,329 mat,1 real,41 e,329,330 mat,1 real,41 e,330,331 mat,1 real,40 e,331,332 mat,1 real,39 e,332,333 !!边墩2 mat,1 real,42 e,317,318 mat,1 real,43 e,318,319 mat,1e,319,320mat,1real,44e,320,321mat,1real,44e,321,322mat,1real,44e,322,323mat,1real,49e,323,324mat,1real,45e,324,325!!添加质量惯距!!两米段质量惯距r,100,,,,1293348.4!!100米处和直线段的质量惯距r,101,,,,1296019.6r,102,,,,1297493r,103,,,,1301181.8 r,104,,,,1311723 r,105,,,,1326622 r,106,,,,1348967 r,107,,,,1370728 r,108,,,,1395061 r,109,,,,1422801 r,110,,,,1452757 r,111,,,,1483258 r,112,,,,1519733 r,113,,,,1558030 r,114,,,,1597229 r,115,,,,1640292 r,116,,,,1687605 r,117,,,,1736625 r,118,,,,1790923 r,119,,,,1848602 r,120,,,,1911418 r,121,,,,1980562 r,122,,,,2052690 r,123,,,,2118097 r,124,,,,2192307r,125,,,,2263641r,126,,,,2350704r,127,,,,2432292r,128,,,,2516392r,129,,,,2679987r,130,,,,2853514r,131,,,,3048284r,132,,,,3252032r,133,,,,3462506!!边跨直线3米段r,148,,,,1293348.4*3/2!!-700处3.75米段的质量惯距r,134,,,,2725866.2!!边支点横隔r,135,,,,2246142.5!!合龙段横隔r,136,,,,833679/2!!中支点横隔r,137,,,,5292760!!添加边墩质量惯距从上到下!!变截面实心2米段r,138,,,,1163498!!1/2空心5米段r,139,,,,1794766!!空心段4米r,140,,,,657211!!1/2空心4米段r,141,,,,1085079!!实心2米段r,142,,,,1064567!!添加主墩质量惯性距从上到下!!实心3米段r,143,,,,2345361!!1/2空心5米段r,144,,,,2869095!!空心4米段r,145,,,,1769087!!1/2空心4米段r,146,,,,2869095*4/5!!实心2米段r,147,,,,2345361*2/3!!在结点处加入质量惯性距!!边跨合龙段!左边边跨real,135 e,2 type,2 real,134 e,3 type,2 real,148 e,4 type,2 real,100 e,5!!右边边跨type,2 real,135 e,113 type,2 real,134 e,114 type,2 real,148 e,115real,100e,116!!对第一个主跨的循环*do,i,6,39,1type,2real,94+ie,i*enddo!!对第二个主跨的循环*do,i,41,74,1 type,2real,59+ie,i*enddo!!对第3个循环*do,i,77,110,1 type,2real,33+ie,i*enddo!!对第4个循环*do,i,188,221,1 type,2real,-88+ie,i*enddo!!对第5个循环*do,i,152,185,1 type,2real,i-52e,i*enddo!!对第6个循环*do,i,117,150,1 type,2real,-17+ie,i*enddo!!添加质量惯距到桥墩!!左边墩type,2real,138e,301real,139 e,302 type,2 real,140 e,303 type,2 real,140 e,304 type,2 real,140 e,305 type,2 real,140 e,306 type,2 real,141 e,307 type,2 real,142 e,308!!右边墩real,138 e,318 type,2 real,139 e,319 type,2 real,140 e,320 type,2 real,140 e,321 type,2 real,140 e,322 type,2 real,140 e,323 type,2 real,141 e,324 type,2e,325!!左边主墩type,2real,143e,310type,2real,144e,311type,2real,145e,312type,2real,145e,313type,2r,400,,,,1769087*3/4 e,314type,2real,146e,315type,2e,316!!中间主墩type,2real,143e,351type,2real,144e,352type,2real,145e,353type,2real,145e,354type,2r,400,,,,1769087*3/4 e,355type,2real,146e,356type,2e,357!!右边主墩type,2real,143e,327type,2real,144e,328type,2real,145e,329type,2real,145e,330type,2r,400,,,,1769087*3/4 e,331type,2real,146e,332type,2e,333!!添加横隔板处质量惯性距!!中支点type,2real,137e,500type,2real,137e,501type,2real,137e,502!!合龙段1type,2real,136e,75type,2real,136e,111type,2r,411,,,,1293348.4*3/10e,40type,2r,412,,,,1293348.4*3/10 e,76!!合龙段2type,2real,136e,222type,2real,136e,186type,2r,411,,,,1293348.4*3/10 e,187type,2r,412,,,,1293348.4*3/10 e,151!!偶合结点cp,1,uy,1,300cp,2,uz,1,300cp,3,rotx,1,300cp,4,uy,309,500cp,5,uz,309,500 cp,6,rotx,309,500 cp,7,ux,350,501 cp,8,uy,350,501 cp,9,uz,350,501 cp,10,rotx,350,501 cp,11,roty,350,501 cp,12,uy,326,502 cp,13,uz,326,502 cp,14,rotx,326,502 cp,15,uy,317,112 cp,16,uz,317,112 cp,17,rotx,317,112 加约束d,308,all,all,0 d,316,all,all,0 d,357,all,all,0 d,333,all,all,0 d,325,all,all,0 allselfinish求解/soluantype,2 !模态分析acel,,9.8 !加载重力modopt,subsp,20!提取前30阶模态mxpand,20,,,0LUMPM,1solvefinish/post1set,list。

ANSYS土木工程经典实例命令流大全ANSYS是目前最为领先的工程仿真软件之一，广泛应用于土木工程领域。

本文将介绍一些ANSYS土木工程的经典实例以及相关的命令流，帮助工程师更好地应用该软件进行仿真分析。

1. 桥梁结构分析实例实例简介一座桥梁由多个零部件组成，包括桥墩、桥面、桥拱等。

如何分析这些零部件的受力情况，以便于对桥梁结构进行优化和改进呢？ANSYS提供了一系列的分析工具和命令流，可以帮助我们完成这项任务。

命令流详解首先需要创建一个桥梁模型，并进行网格划分。

然后利用ANSYS的各种分析工具进行仿真分析，得到桥梁各个零部件的受力情况。

在此基础上，可以进行结构优化，最终得到一个强度和稳定性都较好的桥梁结构。

以下是桥梁结构分析实例的一些关键命令流：•创建单元网格：ET, SOLID186•定义材料属性：MP, EX, NU, DENS•定义边界条件：*BOUNDARY，MP，SYM，FIX•加载边界条件：DLOAD，TYPE，P，_LOC•计算位移和应力分布：*POST1，DISPL，NF，S2. 地基基础分析实例实例简介地基基础是土木工程中的重要组成部分，承载着整个工程的重量。

如何对地基基础的承载力进行分析和计算呢？ANSYS也提供了相应的分析工具和命令流，帮助土木工程师完成这项任务。

命令流详解首先需要建立地基基础的三维模型，并进行网格划分。

然后利用ANSYS的各种分析工具进行仿真分析，计算地基基础承载力、变形等相关指标。

在此基础上，可以进行结构优化，最终得到一个承载能力和稳定性都较好的地基基础。

以下是地基基础分析实例的一些关键命令流：•创建单元网格：ET, SOLID186•定义材料属性：MP, EX, NU, DENS•定义边界条件：*BOUNDARY，MP，SYM，FIX•加载边界条件：DLOAD，TYPE，P，_LOC•计算应力分布和变形：*POST1，S，EPTO，ETA3. 挖土工程分析实例实例简介挖土工程是土木工程中的重要环节，需要对不同参数下的挖土工程进行分析和优化。

!****************************************************************************** ***********************! case2:无偏载(以跨径布置30m+40m+30m,桥宽8.5为例）! 上海城市设计研究院L1+L2+L3预应力混凝土曲线连续梁桥结构分析! 两端为抗扭支座，中间支座为点铰支座! 每次要记得修改横隔梁的参数，即Mass21单元的实常数!****************************************************************************** ***********************FINI/CLE/prep7!DEFINE THE ELEMENTARY PARAMETERS*DIM,L,ARRAY,10*DIM,H,ARRAY,10*DIM,CITA,ARRAY,10!*****以下参数均可修改***************N=3 !跨数L(1)=30 !第一跨L(2)=40 !第二跨L(3)=30 !第三跨e1=1.25 !1#墩处内支座到中心线的间距e2=1.25 !1#墩处外支座到中心线的间距e3=0 !2#墩处的支座偏心距（正的表示外偏）e4=0 !3#墩处的支座偏心距e5=1.25 !4#墩处内支座到中心线的间距e6=1.25 !4#墩处外支座到中心线的间距R=10000 !曲线桥半径H0=1.0 !梁底到截面形心处的高度M=16146 !mass21单元质量J=27246.38 !mass21单元转动惯量!*************************************LL=0.0*DO,I,1,NLL=LL+L(I)CITA(I)=L(I)/R/3.1415925*180*ENDDOCITA0=LL/R/3.1415925*180LOCAL,11,1,0,0,0,0,270,0CSYS,11!DEFINE THE NODES OF BRIDGEN, 1, R, -179.9999, H0N, L(1)+1, R, -179.9999+CITA(1), H0N, L(1)+L(2)+1, R, -179.9999+CITA(1)+CITA(2), H0 N, L(1)+L(2)+L(3)+1, R, -179.9999+CITA0, H0FILL,1,L(1)+1FILL,L(1)+1,L(1)+L(2)+1FILL,L(1)+L(2)+1,L(1)+L(2)+L(3)+1!DEFINE THE REFERENCE POINT OF MAIN DECKN,2000,0,0,0!***************************************************************** !DEFINE THE NODES OF RIGID BEAM OF MAIN GIRDERN, 2001, R-e1, -179.9999, H0N, 2002, R+e2, -179.9999, H0N, 2003, R+e3, -179.9999+CITA(1), H0N, 2004, R+e4, -179.9999+CITA(1)+CITA(2), H0N, 2005, R-e5, -179.9999+CITA0, H0N, 2006, R+e6, -179.9999+CITA0, H0NROTA T,ALL!*****************************************************! 定义主梁单元材料、几何参数! 混凝土标号为C40!**************梁段截面几何特性*******************ET,1,BEAM4MP,EX , 1, 3.25E+10MP,NUXY, 1, 0.2000MP,DENS, 1, 3950.50MP,ALPX, 1, 1.00E-05R,1,4.39129,2.4428,20.7089,8.5,2.0,, !跨中梁断面RMORE ,,5.0388,,,,,!**************刚臂截面几何特性*******************! 增设抗扭或偏心支座时采用ET,3,BEAM4MP,EX , 3, 3.25E+10MP,NUXY, 3, 0.2000MP,DENS, 3, 0.0MP,ALPX, 3, 1.0E-08R,3,100,1000,1000,0.5,0.5,,RMORE ,,1000,,,,,!****************生成主梁单元**********************TYPE,1MA T,1REAL,1*DO,I,1,LL,1E,I,I+1,2000*ENDDO!*********************************************************** ! 生成主梁刚臂单元!*********************************************************** TYPE,3MA T,3REAL,3E,2001,1E,1,2002*IF,e3,GT,0.0,THENE,2003,L(1)+1*ELSENSEL,U, , ,2003*ENDIF*IF,e4,GT,0.0,THENE,2004,L(1)+L(2)+1*ELSENSEL,U, , ,2004*ENDIFE,2005,LL+1E,LL+1,2006!**************************************************! 支墩处的横隔梁采用Mass21单元来模拟!**************************************************ET,4,MASS21R,100, M ,M ,M ,J ,,,TYPE,4REAL,100E,1E,L(1)+1E,L(1)+L(2)+1E,LL+1!****施加约束条件**********D,2001,UX,,,,,UY,UZD,2002,UZ*IF,e3,GT,0.0,THEND,2003,,,,,,,UZ*ELSED,L(1)+1,,,,,,,UZ*ENDIF*IF,e4,GT,0.0,THEND,2004,,,,,,,UZ*ELSED,L(1)+L(2)+1,,,,,,,UZ*ENDIFD,2005,UX,,,,,,UZD,2006,UZ!********************************************************** ! 对桥梁桥面各节点逐点加载!********************************************************** /SOLUANTYPE,0 ! 静力分析ACEL,0,0,0K=1*DO,I,1,LL+1,1TIME,KFDELE,ALL,ALLF,I,FZ,-1000SOLVEK=K+1*ENDDO!******定义各片纵梁的竖向挠度、弯矩、扭矩、剪力的包络图******** *DIM,AMAX,ARRAY,LL+1*DIM,AMIN,ARRAY,LL+1*DIM,JZMAX,ARRAY,LL+1*DIM,JZMIN,ARRAY,LL+1*DIM,DISP1,ARRAY,LL+1,LL+1*DIM,MZ1,ARRAY,LL,LL+1*DIM,MX1,ARRAY,LL,LL+1*DIM,QY1,ARRAY,LL,LL+1*DIM,DISP1MAX,ARRAY,LL+1*DIM,DISP1MIN,ARRAY,LL+1*DIM,MZ1MAX,ARRAY,LL*DIM,MZ1MIN,ARRAY,LL*DIM,MX1MAX,ARRAY,LL*DIM,MX1MIN,ARRAY,LL*DIM,QY1MAX,ARRAY,LL*DIM,QY1MIN,ARRAY,LL*DIM,KK,ARRAY,LL+1*DIM,REACTION,ARRAY,6,LL+1*DIM,REACTIONMAX,ARRAY,6*DIM,REACTIONMIN,ARRAY,6*DO,I,1,LL+1,1/POST1SET,I!*****************竖向位移***************DO,J,1,LL+1,1*GET,DISP1(J,I),NODE,J,U,Y*ENDDO!*****************竖向弯矩Mz************DO,J,1,LL,1*GET,MZ1(J,I),ELEM, J, SMISC,6*ENDDO!*****************扭矩Mx************DO,J,1,LL,1*GET,MX1(J,I),ELEM, J, SMISC,4*ENDDO!*****************剪力Qy************DO,J,1,LL,1*GET,QY1(J,I),ELEM, J, SMISC,2*ENDDO!*****************支座反力************GET,REACTION(1,I),NODE, 2001, RF,FZ*GET,REACTION(2,I),NODE, 2002, RF,FZ*IF,e3,GT,0.0,THEN*GET,REACTION(3,I),NODE, 2003, RF,FZ*ELSE*GET,REACTION(3,I),NODE, L(1)+1, RF,FZ*ENDIF*IF,e4,GT,0.0,THEN*GET,REACTION(4,I),NODE, 2004, RF,FZ*ELSE*GET,REACTION(4,I),NODE, L(1)+L(2)+1, RF,FZ *ENDIF*GET,REACTION(5,I),NODE, 2005, RF,FZ*GET,REACTION(6,I),NODE, 2006, RF,FZKK(I)=I*ENDDO!**************************公路I级汽车活载影响线加载效应计算*******************************! 车道宽度假定为3.75m! 车道布置：横向NN=2车道，不考虑横向折减系数;跨径小于150m，不需要考虑纵向折减。

用ANSYS进行桥梁结构分析谢宝来华龙海引言：我院现在进行桥梁结构分析主要用桥梁博士和BSACS，这两种软件均以平面杆系为计算内核，多用来解决平面问题。

近来偶然接触到ANSYS，发现其结构分析功能强大，现将一些研究心得写出来，并用一个很好的学习例子（空间钢管拱斜拉桥）作为引玉之砖，和同事们共同研究讨论，共同提高我院的桥梁结构分析水平而努力。

【摘要】本文从有限元的一些基本概念出发，重点介绍了有限元软件ANSYS平台的特点、使用方法和利用APDL语言快速进行桥梁的结构分析，最后通过工程实例来更近一步的介绍ANSYS进行结构分析的一般方法，同时进行归纳总结了各种单元类型的适用范围和桥梁结构分析最合适的单元类型。

【关键词】ANSYS有限元APDL结构桥梁工程单元类型一、基本概念有限元分析(FEA)是利用数学近似的方法对真实物理系统（几何和载荷工况）进行模拟。

还利用简单而又相互作用的元素，即单元，就可以用有限数量的未知量去逼近无限未知量的真实系统。

有限元模型是真实系统理想化的数学抽象。

真实系统有限元模型自由度(DOFs)用于描述一个物理场的响应特性。

节点和单元1、每个单元的特性是通过一些线性方程式来描述的。

2、作为一个整体，单元形成了整体结构的数学模型。

3、信息是通过单元之间的公共节点传递的。

4、节点自由度是随连接该节点单元类型变化的。

单元形函数1、FEA 仅仅求解节点处的DOF 值。

2、单元形函数是一种数学函数，规定了从节点DOF 值到单元内所有点处DOF 值的计算方法。

3、因此，单元形函数提供出一种描述单元内部结果的“形状”。

4、单元形函数描述的是给定单元的一种假定的特性。

5、单元形函数与真实工作特性吻合好坏程度直接影响求解精度。

6、DOF 值可以精确或不太精确地等于在节点处的真实解，但单元内的平均值与实际情况吻合得很好。

7、这些平均意义上的典型解是从单元DOFs 推导出来的（如，结构应力，热梯度）。

!平面杆件结构静力分析!==========前处理==========FINISH !退出PREP7处理器/CLEAR !清除当前数据/Prep7 !进入prep7处理器!创建线，赋予线属性*DO,I,1,5,1 !连续定义5个单元类型参考号，单元类型为BEAM44ET,I,BEAM44*ENDDOET,6,Link8 !定义第6个单元类型参考号，单元类型为Link8KEYOPT,3,7,1 !定义单元左端绕Z轴角位移自由度释放类型号为3KEYOPT,5,8,1 !定义单元右端绕Z轴角位移自由度释放类型号为5MP,EX,1,200000000 !定义弹性模量MP,prxy,1,0.16 !定义泊松比MP,DENS,1,78 !定义单元容重K,1,77.7875,202.6708 !定义关键点K,2,88.1393,202.6708 !定义关键点K,3,98.4911,202.6708 !定义关键点K,4,108.843,202.6708 !定义关键点K,5,119.1948,202.6708 !定义关键点K,6,129.5466,202.6708 !定义关键点K,7,139.8984,202.6708 !定义关键点K,8,150.2503,202.6708 !定义关键点K,9,160.6021,202.6708 !定义关键点R,1,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,1,2 !连接两关键点为直线LATT,1,1,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型R,2,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,2,3 !连接两关键点为直线LATT,1,2,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型R,3,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,3,4 !连接两关键点为直线LATT,1,3,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型R,4,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,4,5 !连接两关键点为直线LATT,1,4,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型R,5,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,5,6 !连接两关键点为直线LATT,1,5,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型R,6,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,6,7 !连接两关键点为直线LATT,1,6,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型R,7,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,7,8 !连接两关键点为直线LATT,1,7,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型R,8,0.00485883,0.00022855,7.4E-6,0.144,0.4 !定义实常数LSEL,none !默认选前一线段L,8,9 !连接两关键点为直线LATT,1,8,1 !设置上面连接线的单元属性：包括材料属性、实常数及BEAM44单元类型!==========划分网格==========LSEL,ALL !选择所有线段LESIZE,ALL,,,1 !网格划分定义：一条线段一个单元LMESH,ALL !所有线段进行网格划分，形成单元!==========定义约束==========K,10,77.7875,202.6708 !定义关键点DK,10,UX,,,,UY,UZ !这是一个固定铰支座，节点的X、Y、Z三个方向的线位移被约束K,11,160.6021,202.6708 !定义关键点DK,11,UY,,,,UZ !这是一个竖向活动支座，Y向位移被约束，同时也约束了Z向的线位移!==========定义荷载==========SFBEAM,1,2,PRES,50,50 !施加单元Y向线荷载SFBEAM,2,2,PRES,50,50 !施加单元Y向线荷载SFBEAM,3,2,PRES,50,50 !施加单元Y向线荷载SFBEAM,4,2,PRES,50,50 !施加单元Y向线荷载SFBEAM,5,2,PRES,50,50 !施加单元Y向线荷载SFBEAM,6,2,PRES,50,50 !施加单元Y向线荷载SFBEAM,7,2,PRES,50,50 !施加单元Y向线荷载SFBEAM,8,2,PRES,50,50 !施加单元Y向线荷载NUMMRG,KP,0.005 !对所有关键点进行合并!以下为释放自由度ALLSEL,ALL !选择全部实体/SOLU !进入solu求解器SOLVE !结构力学求解计算/POST1 !进入后处理器PLDISP,1 !显示变形ETABLE,FXI,SMISC,1 !定义单元左端轴力表ETABLE,FXJ,SMISC,7 !定义单元右端轴力表ETABLE,FYI,SMISC,2 !定义单元左端Y向剪力表ETABLE,FYJ,SMISC,8 !定义单元右端Y向剪力表ETABLE,FZI,SMISC,3 !定义单元左端Z向剪力表ETABLE,FZJ,SMISC,9 !定义单元右端Z向剪力表ETABLE,MXI,SMISC,4 !定义单元左端绕X轴钮矩表ETABLE,MXJ,SMISC,10 !定义单元右端绕X轴钮矩表ETABLE,MYI,SMISC,5 !定义单元左端绕Y轴弯矩表ETABLE,MYJ,SMISC,11 !定义单元右端绕Y轴弯矩表ETABLE,MZI,SMISC,6 !定义单元左端绕Z轴弯矩表ETABLE,MZJ,SMISC,12 !定义单元右端绕Z轴弯矩表ETABLE,SMINI,NMISC,2ETABLE,SMINJ,NMISC,4PLLS,FXI,FXJ !显示轴力PLLS,FYI,FYJ !显示剪力PLLS,MXI,MXJ !显示扭矩PLLS,MYI,MYJ !显示绕Y轴的弯矩PLLS,SMINI,SMINJPLLS,MZI,MZJ !显示单元绕Z轴的弯矩SECTYPE, 1, BEAM, CSOLID SECOFFSET, CENTSECDATA,1。

桥梁平转转体施工中球铰的数值模拟技术作者：江鑫来源：《科技视界》2017年第04期【摘要】T型刚构桥平转施工技术，是通过将上部构造浇筑完毕后，以桥梁结构本身为转动体，利用一些机具设备，转动到设计位置的施工技术。

球铰是转体施工体系中最为关键的构造。

本文通过有限元手段建立了一种转体转盘球铰构造的数值模拟方法，模拟分析结果为桥梁转体施工的数值模拟技术研究以及工程设计提供了参考依据。

【关键词】平转转体施工；数值模拟方法；转体牵引力【Abstract】The bridge rotation construction is a kind of construction technology，which is when the superstructure is completed，using the bridge itself as the rotating body，to turn around to the design position by some equipment.The swiel hinge is the key structure of this construction.This paper presents the finite element analysis using ANSYS on the behavior of the swiel hinge in the bridge rotation construction.The solution of the simulation provides reference and practical base for the numerical simulation and the design of the bridge rotation construction.【Key words】Bridge rotation construction；Swivel hinge；Numerical simulation1 转体体系组成平转转体结构由上转盘、球铰、下转盘和转动牵引系统组成：转体下盘作为转体结构的基础，要承担上部结构下传的所有重量；转动球铰是平转施工体系的关键部位，它是转体结构向下传递荷载的直接承担者，它制作精度的高低关系到转体施工的能否成功。