铰链
加权
拓扑优化
顺应机制
约束(计算机辅助设计)
集合(抽象数据类型)
拓扑(电路)
航程(航空)
结构工程
构造(python库)
功能(生物学)
工程类
数学优化
计算机科学
有限元法
数学
机械工程
医学
电气工程
进化生物学
生物
放射科
航空航天工程
程序设计语言
作者
Benliang Zhu,Xianmin Zhang,Min Liu,Qi Chen,Hai Li
标识
DOI:10.1186/s10033-019-0332-z
摘要
A flexure hinge is a major component in designing compliant mechanisms that offers unique possibilities in a wide range of application fields in which high positioning accuracy is required. Although various flexure hinges with different configurations have been successively proposed, they are often designed based on designers' experiences and inspirations. This study presents a systematic method for topological optimization of flexure hinges by using the level set method. Optimization formulations are developed by considering the functional requirements and geometrical constraints of flexure hinges. The functional requirements are first constructed by maximizing the compliance in the desired direction while minimizing the compliances in the other directions. The weighting sum method is used to construct an objective function in which a self-adjust method is used to set the weighting factors. A constraint on the symmetry of the obtained configuration is developed. Several numerical examples are presented to demonstrate the validity of the proposed method. The obtained results reveal that the design of a flexure hinge starting from the topology level can yield more choices for compliant mechanism design and obtain better designs that achieve higher performance.
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