The natural neighbor radial point interpolation method in the Elasto-Static analysis of Honeycomb-Shaped foams

IF 1.4 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY
N. Nascimento, J. Belinha, R. Jorge, D. Rodrigues
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引用次数: 0

Abstract

Cellular solid materials are progressively becoming more predominant in lightweight structural applications as more technologies realize these materials can be improved in terms of performance, quality control, repeatability and production costs, when allied with fast developing manufacturing technologies such as Additive Manufacturing. In parallel, the rapid advances in computational power and the use of new numerical methods, such as Meshless Methods, in addition to the Finite Element Method (FEM) are highly beneficial and allow for more accurate studies of a wide range of topologies associated with the architecture of cellular solid materials. Since these materials are commonly used as the cores of sandwich panels, in this work, two different topologies were designed — conventional honeycombs and re-entrant honeycombs — for 7 different values of relative density, and tested on the linear-elastic domain, in both in-plane directions, using the Natural Neighbor Radial Point Interpolation Method (NNRPIM), a newly developed meshless method, and the Finite Element Method (FEM) for comparison purposes.
蜂窝泡沫弹静力分析中的自然邻域径向点插值法
随着越来越多的技术意识到,当与增材制造等快速发展的制造技术相结合时,这些材料可以在性能、质量控制、可重复性和生产成本方面得到改善,蜂窝固体材料在轻质结构应用中正逐渐占主导地位。同时,计算能力的快速进步和新的数值方法的使用,如无网格方法,以及有限元方法(FEM),是非常有益的,并允许对与蜂窝固体材料结构相关的广泛拓扑结构进行更准确的研究。由于这些材料通常用作夹芯板的核心,在这项工作中,针对7个不同的相对密度值,设计了两种不同的拓扑结构——传统蜂窝和凹入蜂窝,并使用自然邻居径向点插值法(NNRPIM)在两个平面内方向上的线弹性域上进行了测试,新开发的无网格方法和用于比较目的的有限元方法(FEM)。
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
CiteScore
2.10
自引率
15.40%
发文量
27
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