Quasi-static compression and energy absorption behaviour of polymeric selective laser sintered open cell lattices under varying relative densities

Mohan Kumar K, Arumaikkannu G
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Abstract

Purpose The purpose of this paper is to compare the influence of relative density (RD) and strain rates on failure mechanism and specific energy absorption (SEA) of polyamide lattices ranging from bending to stretch-dominated structures using selective laser sintering (SLS). Design/methodology/approach Three bending and two stretch-dominated unit cells were selected based on the Maxwell stability criterion. Lattices were designed with three RD and fabricated by SLS technique using PA12 material. Quasi-static compression tests with three strain rates were carried out using Taguchi's L9 experiments. The lattice compressive behaviour was verified with the Gibson–Ashby analytical model. Findings It has been observed that RD and strain rates played a vital role in lattice compressive properties by controlling failure mechanisms, resulting in distinct post-yielding responses as fluctuating and stable hardening in the plateau region. Analysis of variance (ANOVA) displayed the significant impact of RD and emphasised dissimilar influences of strain rate that vary to cell topology. Bending-dominated lattices showed better compressive properties than stretch-dominated lattices. The interesting observation is that stretch-dominated lattices with over-stiff topology exhibited less compressive properties contrary to the Maxwell stability criterion, whereas strain rate has less influence on the SEA of face-centered and body-centered cubic unit cells with vertical and horizontal struts (FBCCXYZ). Practical implications This comparative study is expected to provide new prospects for designing end-user parts that undergo various impact conditions like automotive bumpers and evolving techniques like hybrid and functionally graded lattices. Originality/value To the best of the authors' knowledge, this is the first work that relates the strain rate with compressive properties and also highlights the lattice behaviour transformation from ductile to brittle while the increase of RD and strain rate analytically using the Gibson–Ashby analytical model.
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聚合物选择性激光烧结开孔晶格在不同相对密度下的准静态压缩和能量吸收行为
本文旨在比较相对密度(RD)和应变率对聚酰胺晶格失效机制和比能量吸收(SEA)的影响,包括使用选择性激光烧结(SLS)的弯曲主导型结构和拉伸主导型结构。设计了具有三个 RD 的晶格,并使用 PA12 材料通过 SLS 技术制作了晶格。采用田口 L9 实验法进行了三种应变速率的准静态压缩试验。研究结果表明,RD 和应变率通过控制破坏机制对晶格压缩性能起着至关重要的作用,从而导致不同的屈服后反应,如高原区的波动硬化和稳定硬化。方差分析(ANOVA)显示了 RD 的显著影响,并强调了应变速率随细胞拓扑结构的不同而产生的不同影响。以弯曲为主的晶格比以拉伸为主的晶格显示出更好的抗压性能。有趣的观察结果是,拓扑结构过硬的拉伸主导晶格显示出较低的抗压性能,这与麦克斯韦稳定性准则相反,而应变率对具有垂直和水平支柱(FBCCXYZ)的面心和体心立方单元晶格的 SEA 影响较小。原创性/价值 据作者所知,这是第一项将应变率与压缩特性联系起来的研究,同时还利用 Gibson-Ashby 分析模型分析了 RD 和应变率增加时晶格行为从韧性到脆性的转变。
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