通过选择性激光熔融技术制造的具有新型 BCCZZ 和 FCCZZ 构型的 AlSi10Mg 晶格结构的压缩特性

Hübannur Şeremet, Nazim Babacan
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引用次数: 0

摘要

目的 本文旨在研究带有垂直支柱的体心立方体(BCCZ)和带有垂直支柱的面心立方体(FCCZ)以及新型 BCCZZ 和 FCCZZ 晶格结构中单元拓扑的静态压缩特性。样品由 AlSi10Mg 合金组成,采用选择性激光熔化(SLM)增材制造技术制造。研究结果表明,与支杆直径相同的 BCCZ 和 FCCZ 样品相比,支杆直径为 0.5 毫米的 BCCZZ 和 FCCZZ 样品的比强度分别提高了约 23% 和 18%。此外,还进行了有限元分析以模拟晶格结构的压缩响应,从而预测其强度和坍塌模式。研究结果表明,虽然晶格单元的局部屈曲是主要的破坏模式,但样品随后会沿着对角剪切带发生坍塌。 原创性/价值 一项原创性的系统研究旨在探索使用 SLM 新制造的晶格结构的压缩性能。结果表明,新型 FCCZZ 和 BCCZZ 结构在承重应用方面具有巨大潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Compressive properties of AlSi10Mg lattice structures with novel BCCZZ and FCCZZ configurations fabricated by selective laser melting
Purpose This paper aims to examine the static compression characteristics of cell topologies in body-centered cubic with vertical struts (BCCZ) and face-centered cubic with vertical struts (FCCZ) along with novel BCCZZ and FCCZZ lattice structures. Design/methodology/approach The newly developed structures were obtained by adding extra interior vertical struts into the BCCZ and FCCZ configurations. The samples, composed of the AlSi10Mg alloy, were fabricated using the selective laser melting (SLM) additive manufacturing technique. The specific compressive strength and failure behavior of the manufactured lattice structures were investigated, and comparative analysis among them was done. Findings The results revealed that the specific strength of BCCZZ and FCCZZ samples with 0.5 mm strut diameter exhibited approximately a 23% and 18% increase, respectively, compared with the BCCZ and FCCZ samples with identical strut diameters. Moreover, finite element analysis was carried out to simulate the compressive response of the lattice structures, which could be used to predict their strength and collapse mode. The findings showed that while the local buckling of lattice cells is the major failure mode, the samples subsequently collapsed along a diagonal shear band. Originality/value An original and systematic investigation was conducted to explore the compression properties of newly fabricated lattice structures using SLM. The results revealed that the novel FCCZZ and BCCZZ structures were found to possess significant potential for load-bearing applications.
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