An Optimized Design Method for Thickness of Shells with Multi-Holes Based On Finite Element Method Theory

机译：基于有限元方法理论的多孔壳厚度优化设计方法

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摘要

Focus on the problems in thickness design of shells with multi-holes, an optimized design method based on theory of finite element method is presented. In this method, mathematical model of optimized design is built up based on theory of finite element method and theory of plates and shells, and realized method of optimized design of thickness based on ANSYS software is established. Additionally, the influence factors of optimized design of thickness are analyzed, including load forms, constraint types. In the end, an example about cellular board design shows this method is a good way and available in engineering projects.

机译：专注于多孔壳厚度设计的问题，提出了一种基于有限元方法理论的优化设计方法。在该方法中，基于有限元方法和板材理论的理论，建立了优化设计的数学模型，建立了基于ANSYS软件的厚度优化设计的实现方法。另外，分析了优化的厚度设计的影响因素，包括负载形式，约束类型。最后，关于蜂窝板设计的一个例子显示这种方法是一种很好的方法，可在工程项目中提供。

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《International Conference on Advances in Materials and Manufacturing》|2013年||共4页
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Xiaobao Liu; Zhihong Yin;
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中图分类 TB3-532;
关键词
Shells with Multi-Holes; Thickness; Optimized design; Theory of finite element method;

机译：具有多孔的壳;厚度;优化设计;有限元方法理论;

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An Optimized Design Method for Thickness of Shells with Multi-Holes Based On Finite Element Method Theory

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