Shape and generalized topology optimization of curved grid stiffeners through the level set based density method

IF 2.9 3区工程技术 Q2 ENGINEERING, MECHANICAL

Journal of Mechanical Design Pub Date : 2023-08-03 DOI:10.1115/1.4063093

Zhuo Huang, Ye Tian, Kang Yang, Tielin Shi, Qi Xia

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引用次数: 1

Abstract

A shape and generalized topology optimization method based on the level set based density method is proposed for designing curved grid stiffeners. The overall layout of the stiffeners is described by combining many single stiffeners, and each single stiffener is described by a level set function parameterized by using the compactly supported radial basis functions (CS-RBFs). The curvilinear path of each stiffener is described by the zero iso-contour of each level set function, and the width of each stiffener is described by applying an interval projection to each level set function. The combination operation that is similar to the Boolean operation “union” is achieved by using the p-norm method. The expansion coefficients of CS-RBFs are taken as part of the design variables of the optimization, and they are responsible for changing the shape of curved stiffeners. A topology design variable is assigned to each single stiffener, and it is responsible for changing the existence of single stiffeners. The proposed method is validated through several numerical examples, and the results demonstrate that the shape and topology of stiffeners can be effectively changed during the optimization.

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基于水平集密度法的曲面网格加强筋形状及广义拓扑优化

提出了一种基于水平集密度法的曲面网格加强筋形状和广义拓扑优化设计方法。通过组合多个单个加劲肋来描述加劲肋的总体布局，每个单个加劲肋用紧支承径向基函数参数化的水平集函数来描述。每个加劲肋的曲线路径由每个水平集函数的零等距轮廓来描述，每个加劲肋的宽度通过对每个水平集函数应用区间投影来描述。与布尔运算“union”类似的组合运算是通过使用p-范数方法实现的。将cs - rbf的膨胀系数作为优化设计变量的一部分，它们负责改变弯曲加强筋的形状。为每个加劲肋分配一个拓扑设计变量，它负责改变单个加劲肋的存在。数值算例验证了该方法的有效性，结果表明在优化过程中可以有效地改变加强筋的形状和拓扑结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Mechanical Design 工程技术-工程：机械

CiteScore

8.00

自引率

18.20%

发文量

139

审稿时长

3.9 months

期刊介绍： The Journal of Mechanical Design (JMD) serves the broad design community as the venue for scholarly, archival research in all aspects of the design activity with emphasis on design synthesis. JMD has traditionally served the ASME Design Engineering Division and its technical committees, but it welcomes contributions from all areas of design with emphasis on synthesis. JMD communicates original contributions, primarily in the form of research articles of considerable depth, but also technical briefs, design innovation papers, book reviews, and editorials. Scope: The Journal of Mechanical Design (JMD) serves the broad design community as the venue for scholarly, archival research in all aspects of the design activity with emphasis on design synthesis. JMD has traditionally served the ASME Design Engineering Division and its technical committees, but it welcomes contributions from all areas of design with emphasis on synthesis. JMD communicates original contributions, primarily in the form of research articles of considerable depth, but also technical briefs, design innovation papers, book reviews, and editorials.