Numerical study of the effects of prosthesis foot asymmetry on energy characters and roll-over characteristics

IF 0.6 4区 工程技术 Q4 MECHANICS
Meijiao Jiang, Junxia Zhang
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引用次数: 0

Abstract

There is limited research available on the effect of asymmetric structure on the performance of the prosthesis. In this paper, 12 sets of prosthetic feet with asymmetric structures were developed using a planar polar coordinate system. The effect of asymmetry on the prosthesis performance was investigated. The prosthetic feet with asymmetric structures were modeled in a gradient manner within a polar coordinate system. A finite element (FE) model of the prosthetic walking process was formulated, and dynamic simulations were conducted to simulate the loading of the prosthesis during the support phase. Evaluation indices such as energy characteristics, contact pressure and roll-over shape were selected to investigate the effects of the asymmetric structure. The results indicate that θ 1 and θ 3 asymmetry significantly affects strain energy density. Moreover, incorporating heel asymmetry proves to be more advantageous in reducing contact pressure of the prosthesis during the middle stance moment. The optimal parameters for asymmetric prostheses are determined based on these findings.
假足不对称对能量特性和侧翻特性影响的数值研究
关于非对称结构对假体性能影响的研究有限。利用平面极坐标系统研制了12组具有非对称结构的假肢足。研究了不对称对假体性能的影响。在极坐标系下以梯度方式对具有非对称结构的假肢足进行建模。建立了义肢行走过程的有限元模型,并进行了动态仿真,模拟了义肢在支撑阶段的受力情况。选取能量特性、接触压力、侧翻形状等评价指标,考察了不对称结构的影响。结果表明,θ 1和θ 3不对称对应变能密度有显著影响。此外,结合脚跟不对称被证明在减少假体在中间站立时刻的接触压力方面更有利。在此基础上确定了非对称假体的最佳参数。
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来源期刊
CiteScore
1.40
自引率
14.30%
发文量
22
审稿时长
6 months
期刊介绍: The scope of JTAM contains: - solid mechanics - fluid mechanics - fluid structures interactions - stability and vibrations systems - robotic and control systems - mechanics of materials - dynamics of machines, vehicles and flying structures - inteligent systems - nanomechanics - biomechanics - computational mechanics
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