使用voronoi镶嵌和3d打印技术生产仿生结构:可能性和实际问题

Proceedings of the Creative Construction Conference 2023 Pub Date : 1900-01-01 DOI:10.3311/ccc2023-086

N Yadav, Julian H. Kang

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引用次数: 0

摘要

本文讨论了一种利用有限元法和Voronoi镶嵌法确定结构成员内部组织密度的新算法的发展。该研究旨在通过在构件内部填充相互连接的支柱构件来复制动物骨骼的结构，从而降低结构元件的密度，同时保持其原始目的。使用Voronoi单元的边缘创建支柱成员，并且在Voronoi迭代期间使用应力作为附加变量，以防止支柱成员的应力集中。与采用劳埃德算法相比，所提出的方法使杆件的应力分布更加均匀。然而，由于某些因素，没有达到完美的均匀性，并且在3D打印过程中发现了几个问题。这些发现将改进所提出的算法，以在接下来的步骤中实现应力分布的完美均匀性。本研究中提出的方法为现代工程提供了前所未有的机会，可以创造出与动物骨骼同样抗内应力的结构成员。©

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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PRODUCTION OF BIOMIMETIC STRUCTURES USING VORONOI TESSELLATION AND 3D PRINTING TECHNOLOGY: POSSIBILITIES AND PRACTICAL ISSUES

This paper discusses the development of a new algorithm for determining the internal tissue density of structural members using the finite element method and Voronoi tessellation. The study aimed to reduce the density of structural elements while maintaining their original purpose by filling the interior of the members with interconnected strut members to replicate the structure of animal bones. The strut members were created using the edges of Voronoi cells, and stress was used as an additional variable during the Voronoi iteration to prevent stress concentration on the strut members. The proposed approach resulted in a more uniform stress distribution in the strut member than when Lloyd's algorithm was used. However, perfect uniformity was not achieved due to certain factors, and several issues were identified during the 3D printing process. These findings will refine the proposed algorithm to achieve perfect uniformity of stress distribution in the following steps. The approach presented in this study offers unprecedented opportunities for modern engineering to create structural members that are equally resistant to internal stresses as observed in animal bones. ©

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Proceedings of the Creative Construction Conference 2023

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