Development of a novel phase-field method for local stress-based shape and topology optimization

Seung Hyun Jeong; Gil Ho Yoon; Akihiro Takezawa; Dong-Hoon Choi

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Development of a novel phase-field method for local stress-based shape and topology optimization

机译：基于局部应力的形状和拓扑优化的新型相场方法的开发

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摘要

This research develops a stress-based topology optimization method (STOM) using the phase-field method representing topological changes. This research shows that to apply the phase field method, regional and localized stress constraints should be addressed. Thus, we use an Augmented Lagrange multiplier approach for the stress constraints and present a new numerical solution for the Lagrange multipliers inside the Allen-Cahn equation with the topological derivatives. Through several two dimensional illustrative problems, the results of the phase-field method have larger objective values, but are robust from a stress point of view compared with the results of the STOM by the density method.

机译：本研究使用表示拓扑变化的相场方法开发了基于应力的拓扑优化方法（STOM）。这项研究表明，要应用相场方法，应解决区域和局部应力约束。因此，我们对应力约束使用增强拉格朗日乘数法，并为带有拓扑导数的艾伦-卡恩方程内部的拉格朗日乘数提供了新的数值解。通过几个二维说明性问题，相场方法的结果具有较大的目标值，但与基于密度方法的STOM结果相比，从应力的角度来看是可靠的。

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来源
《Computers & Structures》 |2014年第2期|84-98|共15页
作者
Seung Hyun Jeong; Gil Ho Yoon; Akihiro Takezawa; Dong-Hoon Choi;
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作者单位

Graduate School of Mechanical Engineering, Hanyang University, Seoul, Republic of Korea;

School of Mechanical Engineering, Hanyang University, Seoul, Republic of Korea;

Division of Mechanical System and Applied Mechanics, Faculty of Engineering, Hiroshima University, Japan;

School of Mechanical Engineering, Hanyang University, Seoul, Republic of Korea;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Stress-based topology optimization; Phase-field method; Augmented Lagrange multiplier method; Topological derivative;

机译：基于压力的拓扑优化;相场法增强拉格朗日乘数法;拓扑导数;

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1. Stress-based shape and topology optimization with the level set method [J] . R. Picelli, S. Townsend, C. Brampton, Computer Methods in Applied Mechanics and Engineering . 2018,第FEBa1期

机译：水平集方法基于应力的形状和拓扑优化
2. A level set solution to the stress-based structural shape and topology optimization [J] . Qi Xia, Tielin Shi, Shiyuan Liu, Computers & Structures . 2012,第Jana期

机译：基于应力的结构形状和拓扑优化的水平集解决方案
3. Stress-based topology optimization using bi-directional evolutionary structural optimization method [J] . Xia Liang, Zhang Li, Xia Qi, Computer Methods in Applied Mechanics and Engineering . 2018,第MAY1期

机译：基于双向演化结构优化方法的基于应力的拓扑优化
4. DEVELOPMENT OF STRESS TOPOLOGY OPTIMIZATION PROCEDURE BY THE PHASE-FIELD METHOD [C] . Seung Hyun Jeong, Akihiro Takezawa, Dong-Hoon Choi, The 7th China-Japan-Korea joint symposium on optimization of structural and mechanical systems . 2012

机译：相场法开发应力拓扑优化程序
5. Efficient reanalysis methods for size, shape and topology optimization of linear dynamic systems. [D] . Haider, Syed Faisal. 2016

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6. Erratum to Comparative Evaluation of Osseointegrated Dental Implants Based on Platform-Switching Concept: Influence of Diameter Length Thread Shape and In-Bone Positioning Depth on Stress-Based Performance [O] . Luigi Baggi, Michele Di Girolamo, Giuseppe Vairo, 2014

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7. Stress-based shape and topology optimization with the level set method [O] . R. Picelli, S. Townsend, C. Brampton, 2018

机译：基于应力的形状和拓扑优化与级别设置方法

Development of a novel phase-field method for local stress-based shape and topology optimization

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