COMPUTING DEFLECTIONS OF TOPOLOGICALLY OPTIMIZED BEAMS

Joanna Paulla Alves De Castro, Paulo Henrique Araújo Bezerra, Leonardo Henrique Borges De Oliveira, Matheus Fernandes de Araújo Silva, João Carlos Arantes Costa Júnior, Kercia da Silva Nogueira
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Abstract

In civil engineering, computing deflections is a fundamental step in the structural design process. However, most structural optimization codes do not directly compute or evaluate displacements in the resulting optimized structures. In that context, this work presents the basis of an approach to compute and analyze deflections (vertical displacements) in optimized beams. Using Matlab®, we implemented an extension to the FEM-based 99 Line Topology Optimization Code (Sigmund, 2001), which is able to compute deflections and plot deformed shapes of optimized structures, allowing users to analyze deformation during the design process. We also compared maximum deflections of optimized versus nonoptimized beams. According to results, for constant boundary conditions, optimized beams present smaller maximum deflections.
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计算拓扑优化梁的挠度
在土木工程中,计算挠度是结构设计过程中的一个基本步骤。然而,大多数结构优化规范并不直接计算或评估得到的优化结构的位移。在这种情况下,这项工作提出了计算和分析优化梁的挠度(垂直位移)的方法的基础。使用Matlab®,我们实现了基于fem的99线拓扑优化代码(Sigmund, 2001)的扩展,该代码能够计算挠度并绘制优化结构的变形形状,允许用户在设计过程中分析变形。我们还比较了优化梁与非优化梁的最大挠度。结果表明,当边界条件不变时,优化梁的最大挠度较小。
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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发文量
45
审稿时长
12 weeks
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REFLEXÕES SOBRE O ACOLHIMENTO INSTITUCIONAL INFANTIL E O USO DE DROGAS NA FAMÍLIA CONSUMO DE CARNE OVINA NO BRASIL SÍNDROME DE RAMSEY HUNT E AS POSSÍVEIS MANIFESTAÇÕES AUDIOLÓGICAS CULTURA ESCOLAR: SILENCIAMENTOS E INTENCIONALIDADES EDUCAÇÃO FÍSICA ORGANIZADA EM CICLOS DE ESCOLARIZAÇÃO: UMA ANÁLISE DO CONTEÚDO JOGO EM DOCUMENTOS CURRICULARES
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