以某球磨机为例,阐述了有限元参数化建模的一般步骤。
A certain ball mill serving as the example, the paper narrates the general process of the finite element parameterized modeling.
采用有限元的参数化建模实现对板结构进行优化分析,证明有限元参数化建模功能实现结构优化分析的可行性,从而为其他复杂结构的优化分析提供了新的方法和依据。
Optimizing the structure of board with parameter modding of finite element, which proves the feasibility by means of parameter modding function to realize the structure optimization analysis.
利用I-DEAS软件本身的参数化设计功能,编写了摆线轮齿面接触有限元建模程序;
Modeling program of cycloid profile contact finite element was finished by use of parametric function in I-DEAS software.
分析建模过程中不同的因素对计算结果的影响,建立合理的参数化的有限元模型分析程序,为后续的研究提供可靠的参考模型。
Analyzing diverse factors' effect on the results in the modeling process, establishing a finite element analyzing program which offered a reference model for following research.
以直齿圆柱齿轮为研究对象,重点介绍了如何利用CATIA对其进行参数化建模及通过图形数据转换接口导入到ANSYS中建立有限元模型。
Taking the spur gear as study object, this article introduces the method of establishing the parametric model in CATIA and transmitting it into ANSYS by graphic data transformation interface.
本文基于斜拉索分层滑移理论,通过ANSYS有限元分析软件进行了索体的参数化建模。
Base on the theory of layered-slipping, a finite element model has been built with ANSYS.
本文以轻型载货汽车驱动桥壳为研究对象详细论述了从UG软件中的参数化建模到ANSYS中有限元模型的建立、边界条件的施加等研究。
This article studies based on light truck driver axle of QX1060, discusses in detail from the UG software parametric modeling, establish of ANSYS FEM model, and the boundary conditions imposed, etc.
以APDL对星轮的参数化设计与有限元分析为例,先对行星齿轮力学模型进行建模,并对参数化设计计算进行研究。
In this paper, APDL parameters of design and Finite Element Analysis of star gear are taken for example to research on the design, calculation and construction of the Mechanical model.
使用参数化建模方法,建立钢板弹簧自由状态下的有限元模型。
FEA model of its free status has been built using ANSYS APDL.
设计了风机转子系统参数化有限元建模,并在通用商业化有限元分析软件ALGOR基础上,开发了模块化编程。
The finite element model of fan rotor system parameterization is designed. Modularity programming is developed based on general business finite element analyzing software ALGOR.
实例表明:参数化有限元建模能提高求解效率。
It is shown that the FEA parameter modeling can improve the efficiency of solving finite element analysis problems.
实例表明:参数化有限元建模能提高求解效率。
It is shown that the FEA parameter modeling can improve the efficiency of solving finite element analysis problems.
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