基于拓扑优化的假指设计

2021 International Conference on Computational Intelligence and Knowledge Economy (ICCIKE) Pub Date : 2021-03-17 DOI:10.1109/ICCIKE51210.2021.9410751

S. Srivastava, S. Salunkhe, S. Pande, V. Naranje

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引用次数: 1

摘要

假肢手指是为截肢手臂上的假手而设计的。机械假手可以人工控制手臂的力矩。仿生手的新概念正在被开发出来，以模仿人类的天然手。随着仿生技术的不断进步，人们对仿生手的需求和使用也将与日俱增。本文提出了一种适应假肢应用的新型手指设计概念。利用基于结构几何的拓扑优化工具，将人手的概念复制到现代仿生手上。利用ANSYS workbench工具对结构进行有限元分析。采用有限元法分别选择圆形和矩形基元进行静力结构分析。通过有限元模型计算得到变形和等效应力。基于有限元分析输出，采用拓扑优化方法生成假手整体结构。

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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Design of Prosthetic Finger Using Topology Optimization

A prosthetic finger is designed for a prosthetic hand in an amputated arm. A robotic prosthetic hand gives ability to artificially control moments of the arm. New concepts of bionic hands are being developed for mimicking the natural human hand. The pace of improving the bionic technology, it is expected for importance will increase the demand and use of bionic hands. In this paper, a concept of new design of fingers, which acts as compliant for prosthetic applications, are proposed. The concept of human hand replicated to the modern bionic hands are made using topology optimization tool based on geometry of structure. The finite element analysis (FEA) is done using ANSYS workbench tool. Circular and rectangular primitives are selected for static structural analysis with the help of FEA. Deformation and equivalent stresses are obtained from FEA model. Based on FEA output, monolithic structure of prosthetic hand are generated using topology optimization.

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2021 International Conference on Computational Intelligence and Knowledge Economy (ICCIKE)

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