产品
Analysis of cantilever by fuzhenfeng
XYZ方向位移如下
/CLEAR,START
/COM,ANSYS RELEASE 14.5 UP20120918 17:02:28 12/24/2020
/input,start145,ans,'C:\Program Files\ANSYS Inc\v145\ANSYS\apdl\'
!*
/PREP7
!*
ET,1,BEAM189
!*
!*
!*
MPTEMP,,,,,,,,
MPTEMP,1,0
MPDATA,EX,1,,2e11
MPDATA,PRXY,1,,0.2
MPTEMP,,,,,,,,
MPTEMP,1,0
MPDATA,DENS,1,,8000
SECTYPE, 1, BEAM, RECT, beam, 0
SECOFFSET, CENT
SECDATA,0.03,0.1,0,0,0,0,0,0,0,0,0,0
K,1,39,,,
K,2,41,,,
LSTR, 1, 2
LMESH, 1
FLST,2,1,3,ORDE,1
FITEM,2,1
!*
/GO
DK,P51X, , , ,0,ALL, , , , , ,
FLST,2,1,3,ORDE,1
FITEM,2,2
!*
/GO
FK,P51X,FY,
FLST,2,1,3,ORDE,1
FITEM,2,2
!*
/GO
FK,P51X,FY,-300
FINISH
/SOL
/STATUS,SOLU
SOLVE
FINISH
/POST1
!*
/EFACET,1
PLNSOL, S,X, 0,1.0
!*
/EFACET,1
PLNSOL, S,Y, 0,1.0
!*
/EFACET,1
PLNSOL, S,Y, 0,1.0
!*
/EFACET,1
PLNSOL, U,X, 0,1.0
!*
/EFACET,1
PLNSOL, U,Y, 0,1.0
!*
/EFACET,1
PLNSOL, U,Z, 0,1.0
!*
!*
/EFACET,1
PLNSOL, U,X, 0,1.0
!*
!*
/EFACET,1
PLNSOL, U,Y, 0,1.0
!*
/EFACET,1
PLNSOL, U,Z, 0,1.0
!*
WPSTYLE,,,,,,,,1
!*
/EFACET,1
PLNSOL, U,Y, 0,1.0
FLST,2,1,8
FITEM,2,1,1,1
WPAVE,P51X
WPSTYLE,,,,,,,,0
!*
WPSTYL, STAT
第二题
Transient analysis of working table by fuzhenfeng
/BATCH
/COM,ANSYS RELEASE 14.5 UP20120918 16:36:06 12/24/2020
/input,menust,tmp,''
/GRA,POWER
/GST,ON
/PLO,INFO,3
/GRO,CURL,ON
/CPLANE,1
/REPLOT,RESIZE
WPSTYLE,,,,,,,,0
RESUME
/COM,ANSYS RELEASE 14.5 UP20120918 16:36:56 12/24/2020
/FILNAME,fuzhenfeng19920201151439,0
/PREP7
!*
ET,1,BEAM188
!*
ET,2,SHELL181
!*
!*
/NOPR
KEYW,PR_SET,1
KEYW,PR_STRUC,1
KEYW,PR_THERM,0
KEYW,PR_FLUID,0
KEYW,PR_ELMAG,0
KEYW,MAGNOD,0
KEYW,MAGEDG,0
KEYW,MAGHFE,0
KEYW,MAGELC,0
KEYW,PR_MULTI,0
KEYW,PR_CFD,0
/GO
!*
/COM,
/COM,Preferences for GUI filtering have been set to display:
/COM, Structural
!*
FINISH
/SOL
FINISH
/PREP7
!*
MPTEMP,,,,,,,,
MPTEMP,1,0
MPDATA,EX,1,,2e11
MPDATA,PRXY,1,,0.3
MPTEMP,,,,,,,,
MPTEMP,1,0
MPDATA,DENS,1,,7800
SECTYPE, 1, BEAM, RECT, beam, 0
SECOFFSET, CENT
SECDATA,0.01,0.02,5,5,0,0,0,0,0,0,0,0
sect,2,shell,,shell
secdata, 0.02,1,0.0,3
secoffset,MID
seccontrol,,,, , , ,
K,1,,,,
K,2,1.5,,,
K,3,1.5,1,,
K,4,0,1,,
/DIST,1,0.924021086472,1
/REP,FAST
/DIST,1,0.924021086472,1
/REP,FAST
/DIST,1,0.924021086472,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
/DIST,1,1.08222638492,1
/REP,FAST
FLST,3,4,3,ORDE,2
FITEM,3,1
FITEM,3,-4
KGEN,2,P51X, , , , ,1, ,0
/USER, 1
/VIEW, 1, 0.499743677250 , 0.632460883625E-01, 0.863861209545
/ANG, 1, 1.40768393449
/REPLO
LSTR, 8, 4
LSTR, 5, 1
LSTR, 6, 2
LSTR, 7, 3
FLST,2,4,3
FITEM,2,8
FITEM,2,7
FITEM,2,6
FITEM,2,5
A,P51X
/VIEW, 1, 0.817815709564 , 0.105416652733E-01, 0.575383644609
/ANG, 1, 2.69930845940
/REPLO
/VIEW, 1, 0.937134166154 , -0.122308043784 , 0.326833745278
/ANG, 1, 2.14167463155
/REPLO
LPLOT
FLST,5,4,4,ORDE,2
FITEM,5,1
FITEM,5,-4
CM,_Y,LINE
LSEL, , , ,P51X
CM,_Y1,LINE
CMSEL,S,_Y
!*
!*
CMSEL,S,_Y1
LATT,1, ,1, , , ,1
CMSEL,S,_Y
CMDELE,_Y
CMDELE,_Y1
!*
CM,_Y,AREA
ASEL, , , , 1
CM,_Y1,AREA
CMSEL,S,_Y
!*
CMSEL,S,_Y1
AATT, 1, , 2, 0, 2
CMSEL,S,_Y
CMDELE,_Y
CMDELE,_Y1
!*
FLST,5,4,4,ORDE,2
FITEM,5,1
FITEM,5,-4
CM,_Y,LINE
LSEL, , , ,P51X
CM,_Y1,LINE
CMSEL,,_Y
!*
LESIZE,_Y1, , ,30, , , , ,1
!*
FLST,2,4,4,ORDE,2
FITEM,2,1
FITEM,2,-4
LMESH,P51X
FLST,5,2,4,ORDE,2
FITEM,5,5
FITEM,5,7
CM,_Y,LINE
LSEL, , , ,P51X
CM,_Y1,LINE
CMSEL,,_Y
!*
LESIZE,_Y1, , ,30, , , , ,1
!*
FLST,5,2,4,ORDE,2
FITEM,5,6
FITEM,5,8
CM,_Y,LINE
LSEL, , , ,P51X
CM,_Y1,LINE
CMSEL,,_Y
!*
LESIZE,_Y1, , ,20, , , , ,1
!*
MSHKEY,0
CM,_Y,AREA
ASEL, , , , 1
CM,_Y1,AREA
CHKMSH,'AREA'
CMSEL,S,_Y
!*
AMESH,_Y1
!*
CMDELE,_Y
CMDELE,_Y1
CMDELE,_Y2
!*
FINISH
/SOL
!*
ANTYPE,4
!*
TRNOPT,FULL
LUMPM,0
!*
FLST,2,4,3,ORDE,2
FITEM,2,1
FITEM,2,-4
!*
/GO
DK,P51X, , , ,0,ALL,UX, , , , ,
NSUBST,50,0,0
OUTRES,ERASE
OUTRES,ALL,ALL
AUTOTS,0
TIME,2
FLST,2,1,5,ORDE,1
FITEM,2,1
/GO
!*
SFA,P51X,1,PRES,10000
LSWRITE,1,
FLST,2,1,5,ORDE,1
FITEM,2,1
SFADELE,P51X,1,PRES
KBC,1
TIME,5
FLST,2,1,5,ORDE,1
FITEM,2,1
/GO
!*
SFA,P51X,1,PRES,10000
LSWRITE,2,
FLST,2,1,5,ORDE,1
FITEM,2,1
SFADELE,P51X,1,PRES
TIME,8
FLST,2,1,5,ORDE,1
FITEM,2,1
/GO
!*
SFA,P51X,1,PRES,5000
LSWRITE,3,
FLST,2,1,5,ORDE,1
FITEM,2,1
SFADELE,P51X,1,PRES
LSSOLVE,1,3,1,
FINISH
/POST1
!*
PLNS,U,Z
ANTIME,10,0.5, ,1,2,0,8
!*
FINISH
/SOL
第三题
谱分析是一种将模态分析结果和已知谱联系起来的计算结构响应的分析方法,主要用于确定结构对随机载荷或随时间变化载荷的动力响应。谱分析可分为时间-历程分析和频域的谱分析。时间-历程谱分析主要应用瞬态动力学分析。谱分析可以代替费时的时间-历程分析,主要用于确定结构对随机载荷或时间变化载荷(地震、风载、海洋波浪、喷气发动机推力、火箭发动机振动等)的动力响应情况。 谱分析的主要应用包括核电站(建筑和部件),机载电子设备(飞机/导弹),宇宙飞船部件、飞机构件,任何承受地震或其他不规则载荷的结构或构件,建筑框架和桥梁等。其主要的步骤是:
1、 建立模型
2、 求得模态解
3、 求得谱解
4、 扩展模态
5、 模态合并
6、 观察结果
第四题
有限差分:准确的问题模型,近似的解法。
有限元:近似的问题模型,精确(近似精确)的解法。
有限元方法的基础是变分原理和加权余量法。常见的有限元计算方法是由变分法和加权余量法发展而来的里兹法和伽辽金法、最小二乘法等。根据所采用的权函数和插值函数的不同,有限元方法也分为多种计算格式。从权函数的选择来说,有配置法、矩量法、最小二乘法和伽辽金法,从计算单元网格的形状来划分,有三角形网格、四边形网格和多边形 网格,从插值函数的精度来划分,又分为线性插值函数和高次插值函数等。不同的组合 同样构成不同的有限元计算格式。对于权函数,伽辽金(Galerkin)法是将权函数取为逼近函数中的基函数 ;最小二乘法是令权函数等于余量本身,而内积的极小值则为对代求系数的平方误差最小;在配置法中,先在计算域内选取N个配置点 。令近似解在选定的N个配置点上严格满足微分方程,即在配置点上令方程余量为0。插值函数一般由不同次幂的多项式组成,但也有采用三角函数或指数函数组成的乘积表示,但最常用的多项式插值函数。
节点和单元
类似于一个六面体,各顶点在ansys中称之为节点(node),而这个六面体本身被称之为单元(element).
155-2731-8020
