INVESTIGATION OF OVER OBSTACLE PERFORMANCE ANALYSIS OF AUXETIC AIRLESS TYRES

International Journal of 3D Printing Technologies and Digital Industry Pub Date : 2023-11-20 DOI:10.46519/ij3dptdi.1336826

Ahmet Üzün, M. Y. Kayacan

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Abstract

Advancing technologies are leading to the development of airless tire designs that can perform well on challenging road conditions. These designs include lattice structures, mesh structures, and periodic structures, among others. In this study, three different tire designs were analyzed using finite element analysis (FEA) to evaluate their strength and dynamic behavior. Dynamic analyses were conducted on two commercial designs and one original design with re-entrant lattice structures. The study found that these structures are versatile as they provide multiple load paths to resist deformation and failure, and they can be modified to produce different properties like stiffness and strength. The original design with re-entrant structures demonstrated mechanical properties that were twice as good as other commercial tires. Moreover, a spline-lined structure was developed, and it was discovered that a two-stage tire design could enhance strength. The analyses were conducted at specific and controlled speeds with a designated bump size. In total, nine analyses were performed, making a significant contribution to the development of airless tire design.

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无气充气轮胎的过障碍性能分析研究

随着技术的不断进步，无气轮胎的设计也在不断发展，能够在具有挑战性的路面条件下发挥出色的性能。这些设计包括格子结构、网状结构和周期结构等。本研究使用有限元分析（FEA）对三种不同的轮胎设计进行了分析，以评估其强度和动态性能。对两种商业设计和一种带有重入网格结构的原创设计进行了动态分析。研究发现，这些结构具有多功能性，因为它们提供了多个载荷路径来抵抗变形和失效，而且可以对其进行修改，以产生不同的特性，如刚度和强度。带有再入式结构的原始设计所表现出的机械性能是其他商用轮胎的两倍。此外，还开发了一种花键衬里结构，并发现两段式轮胎设计可以提高强度。分析是在特定的受控速度和指定的凹凸尺寸下进行的。总共进行了九次分析，为无气轮胎设计的发展做出了重大贡献。

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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International Journal of 3D Printing Technologies and Digital Industry

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