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Optimization of the Fundamental Frequency of Mechanical Structures by Using the Bidirectional Evolutionary Structural Method

机译：使用双向进化结构法优化机械结构的基频频率

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A hierarchical structure is a structure that can be described by different characteristic lengths, and is such that its layout in the smaller scale (microscale) affects its behavior in the bigger scale (macroscale). Each hierarchical level is treated as a continuous medium composed of one or more materials. The simultaneous design of multiphase composite structures aims at finding the optimal distribution of materials such that one or more structural parameters are maximized (or minimized). In this work, the Bi-directional Evolutionary Structural Optimization method, BESO hereinafter, is applied to the maximization of the fundamental frequency of a structure subjected to a constraint on the total volume of materials used. Numerical experiments are made in order to validate the implementation and confirm the efficacy of the method in optimizing the topology of the structure.

机译：分层结构是可以通过不同特征长度描述的结构，使得其较小刻度（Microscale）中的布局影响其在更大的比例（宏尺寸）中的行为。每个层级水平被视为由一种或多种材料组成的连续培养基。多相复合结构的同时设计旨在找到材料的最佳分布，使得一个或多个结构参数最大化（或最小化）。在这项工作中，双向进化结构优化方法BESO在下文中，应用于对所用材料总量进行约束的结构的基射频率的最大化。进行数值实验以验证实施，并确认方法在优化结构拓扑方面的效果。

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来源
《International Symposium on Dynamic Problems of Mechanics 》|2019年|562p|共13页
会议地点
作者
Ederval de Souza Lisboa; Joao Baptista Dias Moreira; Emanuel Moutinho Cesconeto; Walter Jesus Paucar Casas;
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正文语种
中图分类 O313-53;
关键词
Topology optimization; Hierarchical structure; BESO Homogenization;

机译：拓扑优化;层次结构;BEO均质化;

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专利

1. Bidirectional Evolutionary Structural Optimization (BESO) based design method for lattice structure to be fabricated by additive manufacturing [J] . Tang Yunlong, Kurtz Aidan, Zhao Yaoyao Fiona Computer-Aided Design . 2015 ,第Null期

机译：基于双向进化结构优化（BESO）的增材制造晶格结构设计方法
2. A study on ranked bidirectional evolutionary structural optimization (R-BESO) method for fully stressed structure design based on displacement sensitivity [J] . Chung-Hyun Ryu, Young-Shin Lee Journal of Mechanical Science and Technology . 2007 ,第12期

机译：基于位移敏感性的全应力结构分级双向演化结构优化（R-BESO）方法研究
3. A study on ranked bidirectional evolutionary structural optimization (R-BESO) method for fully stressed structure design based on displacement sensitivity [J] . Chung-Hyun Ryu, Young-Shin Lee Journal of Mechanical Science and Technology . 2007 ,第12期

机译：基于位移敏感性的全应力结构分级双向演化结构优化（R-BESO）方法研究
4. Optimization of the Fundamental Frequency of Mechanical Structures by Using the Bidirectional Evolutionary Structural Method [C] . Ederval de Souza Lisboa, Joao Baptista Dias Moreira, Emanuel Moutinho Cesconeto, International Symposium on Dynamic Problems of Mechanics . 2019

机译：使用双向进化结构法优化机械结构的基频频率
5. Investigations on use of Evolutionary Techniques and MADM Methods for Optimization of Mechanical Components. [D] . Tamboli, Ketan M. 2015

机译：研究使用进化技术和MADM方法优化机械零件。
6. A tutorial on multiobjective optimization: fundamentals and evolutionary methods [O] . Michael T. M. Emmerich, André H. Deutz -1

机译：多目标优化教程：基础知识和进化方法
7. Bidirectional Evolutionary Structural Optimization (BESO) based design method for lattice structure to be fabricated by additive manufacturing [O] . Yunlong Tang, Aidan Kurtz, Yaoyao Fiona Zhao 2015

机译：基于双向进化结构优化（BESO）晶格结构的设计方法，由添加剂制造制造

Optimization of the Fundamental Frequency of Mechanical Structures by Using the Bidirectional Evolutionary Structural Method

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