2) FEM simulation
有限元数值模拟
1.
FEM Simulation shows that the inˉcreasing rate of the internal high pressure exerts different influences on the wrinkle's evolvement with the change of the combination mode of internal pressure and axial pressure.
有限元数值模拟显示,随着内压—轴压匹配模式的改变,内压增长率对褶皱的演化表现出不同的影响效果。
2.
In this paper, 3-dimension CAD technology is introduced into CWR field, process and die design scheme based on rolled pieces is presented, a corresponding CAD system is developed, as well as FEM simulation technology is used as the virtual test.
本文将三维CAD技术引入到楔横轧工艺与模具设计领域中,提出了基于轧件特征的楔横轧模具设计方案,开发了相应的模具设计CAD系统,并尝试着将有限元数值模拟技术作为虚拟调试手段应用于楔横轧工艺与模具设计中。
4) Finite element simulation
有限元数值模拟
1.
In consideration of the special structure of cut-off walls and their typical geophysical environment, the finite element simulation and physical model test were performed on their electric field to verify the feasibility of the transverse profile resistivity method applied to the inspection of the quality of cut-off walls and the characteristics of and condition for its application.
就防渗墙这一特定结构和所处地球物理环境,进行了电场有限元数值模拟和物理模拟;基于模拟结果,论证了横剖面电阻率法在防渗墙质量检测中应用的可行性、应用特点和应用条件。
2.
A systematic analysis of the springback in titanium alloy sheet bend-forming was presented in this paper, it used the method which integrates finite element simulation and forming tests.
本文采用有限元数值模拟与成形工艺试验相结合的方法,对TA2M钛合金板材的弯曲回弹问题进行了系统的研究,揭示了弯曲线取向对回弹的影响,并对弯曲时的局部畸变现象进行了深入研究。
5) finite element numerical simulation
有限元数值模拟
1.
Present situation and prospect of application for finite element numerical simulation of palaeotectonic stress fields;
古构造应力场有限元数值模拟的应用及展望
2.
Application of the finite element numerical simulation method in fracture prediction.;
有限元数值模拟方法在构造裂缝预测中的应用
3.
By means of finite element numerical simulation,the effect of joint type on residual stress in ceramic/AgCuTi/Kovar/steel joint was investigated.
采用有限元数值模拟方法研究了用AgCuTi钎料并添加Kovar中间层对氧化铝陶瓷/不锈钢进行钎焊连接接头残余应力的分布情况,分析接头形式对残余应力的影响。
补充资料:有限
1.有限制;有限度。 2.指数量不多;程度不高。 3.哲学范畴。指有条件的﹑在空间和时间上都有一定限制的﹑有始有终的东西。相对于"无限"而言。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条