DEVELOPMENT OF A METHOD FOR CALCULATING LOADS ON IMPLANTS AND PROSTHESES USED FOR THE HUMAN SKELETON

I. Tunc, Gursel Sefkat
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Abstract

The study proposes a novel computational approach for customizing sustainable knee disarticulation prostheses, aimed at improving the quality of life for users. A specialized calculation technique for assessing the loads and moments on the prosthesis was formulated, leveraging MATLAB for solving kinematic equations, Solidworks for motion analysis, and ANSYS Workbench for material and static analysis. The integration of these tools enabled the validation of the design and analytical outcomes. The kinematic solutions accounted for individual and prosthesis weights, analyzing linear and angular dynamics over a motion range pertinent to the prosthetic leg's function. Static analysis was executed to determine maximum force impact on the prosthesis. The study's results were conducive to identifying the most suitable prosthesis characteristics for individuals aged 20 to 80, with a height of 160-190 cm and a weight of 80-120 kg. The prosthetic design promoted ease of movement in activities requiring a range of motion, such as running and jumping. The prosthesis adapted swiftly to body movements, achieving readiness in approximately three seconds. The research underscores the importance of interdisciplinary collaboration between engineers and medical professionals to optimize the anatomical and kinematic aspects of prosthesis design.
开发用于人体骨骼的植入物和假体载荷计算方法
该研究提出了一种定制可持续膝关节脱位假体的新型计算方法,旨在提高使用者的生活质量。该研究利用 MATLAB(用于求解运动方程)、Solidworks(用于运动分析)和 ANSYS Workbench(用于材料和静态分析),制定了评估假体负载和力矩的专门计算技术。这些工具的整合使设计和分析结果得到了验证。运动学解决方案考虑了个人和假肢的重量,分析了假肢功能相关运动范围内的线性和角度动态。还进行了静态分析,以确定对假肢的最大作用力。研究结果有助于确定最适合 20 至 80 岁、身高 160 至 190 厘米、体重 80 至 120 千克的人的假肢特征。假肢的设计使跑步和跳跃等需要一定运动幅度的活动更加轻松自如。假肢能迅速适应身体运动,在大约三秒钟内就能达到准备就绪的状态。这项研究强调了工程师和医疗专业人员之间跨学科合作的重要性,以优化假肢设计的解剖学和运动学方面。
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