Simulation of Design Optimization and Performance of CoCrMo Acetabular Hip Prosthesis Implants on Climbing Stairs Activity Using Finite Element Method

Fahny Ardian, Y. Setiyorini, S. Pintowantoro, F. Abdul, Kariza Defarrel Aqil Ilman
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Abstract

Damage or a loss of strength in this hip joint can occur as a result of calcification, aging, the development of illnesses such as osteoporosis, arthritis, and bone cancer, and it can also be permanently destroyed by accidents. As a result, an artificial hip prosthesis can be implanted to prevent undesirable outcomes. Throughout the jumping, running, and walking cycles, the hip joint is the most essential load-bearing and shock-absorbing component in the lower half body. As a result, using a finite element analysis technique, this work simulates the design of an Artificial Hip Joint with holes and thickness as variables, using CoCrMo acetabular implant material. ANSYS 19.1 software with transient structural characteristics will be used to simulate providing the load with the activity of climbing stairs. According to the findings of this study, the acetabular design with a thickness of 3 mm and 5 holes is the most optimal. This is due to the design's distribution of stress, strain, and total deformation being the most ideal and having a relatively low weight with appropriate usage period and safety factor forecasts.
利用有限元法模拟钴铬钼髋臼假体在爬楼梯活动中的优化设计和性能
钙化、衰老、骨质疏松症、关节炎和骨癌等疾病的发生都可能导致髋关节受损或失去力量,也可能因意外事故而永久性损坏。因此,可以植入人工髋关节假体来防止不良后果的发生。在整个跳跃、跑步和行走周期中,髋关节是下半身最重要的承重和减震部件。因此,本研究利用有限元分析技术,使用 CoCrMo 髋臼植入材料,以孔和厚度为变量,模拟人工髋关节的设计。将使用具有瞬态结构特征的 ANSYS 19.1 软件来模拟提供爬楼梯活动的负载。根据这项研究的结果,厚度为 3 毫米、5 个孔的髋臼设计最为理想。这是因为该设计的应力、应变和总变形的分布最为理想,而且重量相对较轻,使用期和安全系数预测也比较合适。
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