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1、ansys 2d电磁力受力分析比较1、 所用apdlfini/cle/filname,pingbi,1/title,lovz/prep7/format,f,18,9r1=0.464r2=0.5115l=0.355i=165n=14526s=l*(r2-r1)j=n*i/srd1=0.18rd2=0.18rd3=0.18r4=0.9r5=0ld=-0.636!etet,1,53,1et,2,110,1mp,murx,1,1mp,murx,2,1mat,3mpread,emagSa1010,SI_MPL,D:Program FilesANSYS Incv140ansysmatlib,LIB!mod
2、el/pnum,area,1rect,r1,r2,-l/2,l/2rect,r5,r4,ld,0.636rect,r5,r4+rd2,ld-rd1,0.636+rd3rect,0,1.5,-1.5,1.5rect,0,3,-3,3rect,0,6,-6,6aovlap,allaglue,allnumcmp,allaplotallselaatt,1,1asel,1aatt,2,1asel,2aatt,3,1asel,5aatt,1,2allselasel,5asel,invesmrt,1amesh,allallselasel,5asel,invelsel,s,extlsel,u,loc,x,0l
3、ccat,allallsellsel,s,extlsel,u,loc,x,0lccat,allallselsmrt,offesize,1amesh,5aref,1,2,1,2allsel*get,lmax,line,num,maxldele,lmax-1,lmax,1allsel/sollsel,s,extlsel,u,loc,x,0nsll,s,1sf,all,infallselnsel,s,loc,x,0d,all,az,0allselesel,s,mat,2bfe,all,js,jallselesel,s,mat,3cm,arm,elemfmagbc,armesel,s,mat,2cm,
4、coil,elemfmagbc,coilallselmagsolv,0,4,0.0001,25/post1plnsol,b,sumplf2d,100nc=node(0,0,0)*get,b_center,node,nc,b,summur=1.256e-6etab,nmisc,1sadd,uu,nmis1,1/murpletab,uu,avgpath,c1,2,30,200ppath,1,0ppath,2,-2pdef,b,y,noavprpath,byfmagsum,arm,coil2、 模型图示如右,一铁轭与电流线圈,铁轭对称,理论上铁轭受力为0;但由于中心磁场略大,约为3.2T,所以受力的
5、误差相对放大,有点不可接受。现对各种处理做一比较,方便以后更好的对其进行控制。3、 网格比较1)粗略网格smrt,1 2) 较细网格 plane53magsolv,0,4,0.0001,25smrt,1$amesh,all$aref,all,23) 更细网格 plane 53 magsolv,0,4,0.0001,25smrt,1amesh,allaref,all,2可见,细致网格能提高求解电磁力的精度,通过查看求解时的收敛曲线,可以看到细致网格降低了磁电流段的收敛误差。另外,可以看出虚功力的要比麦克斯韦力准确点。一般来说,网格密度足够时,虚功力和麦克斯韦力相差无几。4、 单元比较1) pla
6、ne13单元 magsolv,0,4,0.0001,25smrt,1amesh,allaref,all,2与3-3)比较,可见准确度没有53单元好。13为4节点单元;53为8节点单元,拥有中间节点,有个233单元,貌似也差不多。CSG收敛程度和网格密度一致,但53要少一半单元。13单元可以用作磁结构耦合。MAGSOLV, OPT, NRAMP, CNVCSG, CNVFLUX, NEQIT, BIOT,CNVTOL5、对magsolvcnvcsg项的设置比较1) plane 53amrt,1$amesh,all$aref,all,2 magsolv,0,4,0.0001,25magsolv,0
7、,4,0.001,25对cnvcsg项的CSG的容差设置对结果没有多大影响,较小的cnvcsg可减小csg的收敛误差。鉴于收敛判据为value与toler一起作用,因此需对其谨慎处理。通过cnvtol,csg,1e-8,将csg容差设为1e-8可获得较为精确的结果。3)magsolv,0,4,0.000001,252) magsolv,0,4,0.00001,256、 对magsolvnramp项的设置比较2)magsolv,0,5,0.0001,251)plane 53amrt,1$amesh,all$aref,all,2magsolv,0,3,0.0001,25nramp项为迭代次数。4)
8、magsolv,0,10,0.000001,253)magsolv,0,10,0.0001,252)solveamrt,1$amesh,all7、 solve和magsolv的比较1) plane53solveamrt,1$amesh,all$aref,all,2 可见,若无收敛容差设置,solve 对于此例材料非线性,效果没有magsolv好。8、其他设置1)单载荷步求解time,2nsub,20kbc,0solve2)pcg求解器time,1nsub,4eqslv,pcg,1e-8solve3)time,1nsub,4cnvtol,a,0.0001cnvtol,csg,1e-8solve4
9、)time,1nsub,5cnvtol,csg,1e-8solve5)time,1nsub,5solcontrol,1cnvtol,csg,1e-8solve6)time,1nsub,5solcontrol,1cnvtol,csg,1e-8magsolv,4,1e-8,507)allselmagsolv,4,1e-8,508)allseleqslv,jcg,1e-8solve9)allseleqslv,jcgmagsolv,4,1e-8,5010)allseleqslv,front,1e-8solve11)allseleqslv,front,1e-8magsolv,5,1e-8,5012)al
10、lseleqslv,sparse,1e-8cnvtol,csg,1e-8cnvtol,a,1e-8solve13)allseleqslv,sparse,1e-8cnvtol,a,1e-8solve14)allselcnvtol,csg,1e-8solve15)allselcnvtol,csg,1e-8eqslv,jccgsolve做的吐血。(#_#&;%;总结下,用magsolv,4,1e-8,50即可。但为什么线圈受力那么差呢,难道除了网格对称没别的方法了么。esel,s,mat,2etab,fsum,fmag,sumetab,fx,fmag,xetab,fy,fmag,yssum得到线圈内部洛伦磁力fy理论上为0吧,这个11点几有点不能忍吧。选择外围单元,求线圈虚功力esel手动esel,u,mat,2etab,fv,fmag,sumssum额(o)这个不是虚功力吧。不过对于线圈,没必要fmagbc,貌似。/lovz
