Design and analysis of strut-based lattice structure cranial implant

IF 1.1 Q4 ENGINEERING, MECHANICAL Journal of Mechanical Engineering and Sciences Pub Date : 2023-03-23 DOI:10.15282/jmes.17.1.2023.1.0735

Mohammad Zahid Khan, Jitendra Bhaskar, Anand Kumar

引用次数: 0

Abstract

A specialized medical cranioplasty procedure entails the use of implants of various materials, forms, and sizes. Computational technologies such as modelling and simulation, have refined the technique for creating these implants catering to patient specific needs. Superior qualities of lattice structures have considerable usage in implants. This study mainly focuses on three distinct types of strut-based lattice structures, Octet, Diamond, and Kelvin, for constructing cranial implant models using CAD tools like Solidworks and nTopology. Titanium alloy (Ti6Al4V) is used to test the behaviour of the designed implants in two cases: impact of external force and increase in intracranial pressure. Level of porosity is compared to determine extent of porosity of these implants, as porosity is significant in osseointegration. According to the study, these lattice structures give satisfactory results and can be utilized to make the implant more porous while satisfying the load bearing capacity.

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基于支柱的网格结构颅骨植入物的设计与分析

一种专门的医学颅骨成形术需要使用各种材料、形式和尺寸的植入物。建模和模拟等计算技术已经完善了创建这些植入物的技术，以满足患者的特定需求。晶格结构的优良品质在植入物中有相当大的用途。本研究主要关注三种不同类型的基于支柱的晶格结构，Octet、Diamond和Kelvin，用于使用Solidworks和nTopology等CAD工具构建颅骨植入物模型。钛合金（Ti6Al4V）用于测试设计的植入物在两种情况下的性能：外力冲击和颅内压升高。比较孔隙率水平以确定这些植入物的孔隙率，因为孔隙率在骨整合中很重要。根据研究，这些晶格结构给出了令人满意的结果，可以在满足承载能力的同时使植入物更多孔。

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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来源期刊

Journal of Mechanical Engineering and Sciences ENGINEERING, MECHANICAL-

自引率

0.00%

发文量

审稿时长

20 weeks

期刊介绍： The Journal of Mechanical Engineering & Sciences "JMES" (ISSN (Print): 2289-4659; e-ISSN: 2231-8380) is an open access peer-review journal (Indexed by Emerging Source Citation Index (ESCI), WOS; SCOPUS Index (Elsevier); EBSCOhost; Index Copernicus; Ulrichsweb, DOAJ, Google Scholar) which publishes original and review articles that advance the understanding of both the fundamentals of engineering science and its application to the solution of challenges and problems in mechanical engineering systems, machines and components. It is particularly concerned with the demonstration of engineering science solutions to specific industrial problems. Original contributions providing insight into the use of analytical, computational modeling, structural mechanics, metal forming, behavior and application of advanced materials, impact mechanics, strain localization and other effects of nonlinearity, fluid mechanics, robotics, tribology, thermodynamics, and materials processing generally from the core of the journal contents are encouraged. Only original, innovative and novel papers will be considered for publication in the JMES. The authors are required to confirm that their paper has not been submitted to any other journal in English or any other language. The JMES welcome contributions from all who wishes to report on new developments and latest findings in mechanical engineering.