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1) ANSYS/FLOTRAN CFD
ANSYS/FLOTRANCFD
2) ANSYS software
ANSYS
1.
By using 'birth and death' element technology of the ANSYS software, the FEM model simulating the real process of the metal thin wall fabricated by laser direct deposition was established to calculate the 3 D transient temperature field in the thinwall metal part.
利用ANSYS有限元软件中的'生死单元'技术,建立了与激光快速成形过程一致的三维瞬态薄壁零件温度场计算模型。
2.
Taking quasi-high speed generator car as an example,and on the basis of ANSYS software parametric finite element model of car body is constructed using APDL language.
以ANSYS软件为平台,以准高速客车发电车车体为例,利用APDL语言编写命令流文件,建立了参数化的车体有限元模型,并对车体承载结构进行了优化设计。
3.
The ANSYS software of finite element method was introduced and the temperature field in a low-temperature refrigerator was analyzed by utilizing the ANSYS software.
认为有限元分析方法FEM(finite element method)是一种应用非常广泛的数值计算方法;介绍了ANSYS有限元分析软件,并利用ANSYS软件对一台低温冰箱内的温度场进行计算和分析;提出了优化箱内温度场均匀分布的措施。
3) VB MDT ANSYS
VBMDT ANSYS
4) ANSYS software
ANSYS软件
1.
Simulation and analysis of acoustics transducers using the ANSYS software;
ANSYS软件在模拟分析声学换能器中的应用
2.
Application of the modeling and meshing technology based on ANSYS software;
基于ANSYS软件建模及划分网格技术的应用
3.
The application of ANSYS software to the bearing capacity analysis of unbonded prestressed concrete box girder;
ANSYS软件在无粘结预应力混凝土箱型梁承载力分析中的应用
5) ANSYS analysis
ANSYS分析
1.
ANSYS analysis of structure transform node of Hongzhou pagoda;
洪洲宝塔结构转换节点的ANSYS分析
2.
ANSYS analysis and experiment comparison of the force-frequency characteristics of quartz resonator;
石英谐振器力频特性的ANSYS分析及实验对比
3.
Titanium alloy was considered fit for the wheel core and taper type was the best shape for ultra-high speed wheel by ANSYS analysis.
通过ANSYS分析我们发现,对于砂轮基盘的材料,钛合金是本次试验最佳的选择;锥形是砂轮形状最佳的选择。
6) ANSYS finite element method
ANSYS有限元
1.
The self-lubricating composite was designed by using the ANSYS finite element method at high loads.
利用ANSYS有限元软件对重载自润滑复合材料进行设计,通过摩擦磨损实验测定了其摩擦磨损曲线。
2.
The paper is analyzed and simulated with the use of the ANSYS finite element methods,adopt solid 92 element,set up finite element model of the board,get the picture of stress distribution,receive the great deformation value and proved with the experiments.
通过ANSYS有限元进行模拟分析,采用Solid 92单元,建立大立板的有限元模型,从直观了解到大立板应力分布情况,并得到大立板的变形值。
补充资料:ANSYS工字梁焊缝初应力例子
建立好模型 ….. /SOLU !* ANTYPE,0 /INPUT,'input','txt', /INPUT,'output1','txt', !* ISFILE,READ,1,txt, ,0 SOLVE ===================== !定义残余应力矩阵 I=1 fy=310e6 !定义单元中心坐标数组,初应力数组 *DIM,EleCenter,ARRAY,NumNode,3,1, , , *DIM,EleIS,ARRAY,NumNode,1,1, , , *DO,I, 1, NumNode,1 !得到单元中心坐标 *GET,EleCenter(I,1,1),ELEM,I,CENT,X *GET,EleCenter(I,2,1),ELEM,I,CENT,Y *GET,EleCenter(I,3,1),ELEM,I,CENT,Z !焊缝位置在X=1.0 到1.05 之间 *IF,EleCenter(I,1,1),GT,1,THEN *IF,EleCenter(I,1,1),LT,1.05,THEN *IF,EleCenter(I,2,1),GT,0.5,THEN !上翼缘初始应力 EleIS(I,1,1)=-20*fy*EleCenter(I,3,1)**2+0.3*fy *endif *IF,EleCenter(I,2,1),LT,0.0,THEN !下翼缘初始应力 EleIS(I,1,1)=-20*fy*EleCenter(I,3,1)**2+0.3*fy *endif !腹板初始应力 *if,EleCenter(I,2,1),GE,0.0,THEN *IF,ELECENTER(I,2,1),LE,0.5,THEN EleIS(I,1,1)=4.076*fy*(EleCenter(I,2,1)-0.5)**2 EleIS(I,1,1)=EleIS(I,1,1)-0.719*fy *IF,EleIS(I,1,1),LT,-0.3*fy,THEN ELeIS(I,1,1)=-0.3*fy *ENDIF *ENDIF *ENDIF *ENDIF *ENDIF *ENDDO =============== !输出应力数值 *CFOPEN,'1','txt',' ' *DO,I,1,3840 !*IF,EleIS(I,1,1),ne,0.,then *VWRITE,'!' (A) *VWRITE,'! Stress for element', (A,F) *VWRITE,'!' (A) *VWRITE,'eis,',I (A,F) P=EleIS(I,1,1) *VWRITE,P,0.,0.,0.,0.,0. (E,E,E,E,E,E) !*ENDIF *ENDDO *CFCLOS
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参考词条
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