细胞塌缩机制在熔融加工制造的铝泡沫机械性能中的作用

O. Byakova, S. Gnyloskurenko, Andrey Vlasov, Yan Yevych, N. Semenov, Dmytro Kytranov
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摘要

本研究介绍了使用 CaCO3 发泡剂(不含 Ca 添加剂)熔融加工制造的铝泡沫的机械性能指标,尤其是能量吸收指标。研究采用了韧性相对较好的 Al1Mg0.6Si 合金和高强度的 Al6Zn2.3Mg 合金(包含脆性共晶畴)来制造泡沫,然后在单轴准静态压缩条件下进行了检验。人们认识到,泡沫的机械响应和能量吸收从根本上取决于细胞塌陷的机理,而细胞塌陷的机理又取决于细胞壁材料结构成分的性质。特别是,与使用 Al1Mg0.6Si 合金加工的泡沫相比,使用 Al6Zn2.3Mg 合金加工的泡沫的细胞壁材料中存在脆性共晶畴,导致抗压强度和能量吸收能力降低,两者都明显偏离理论预测。尽管如此,在工程应用之前,仍需对泡沫的细胞塌陷进行实验验证。
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The Role of Cell Collapse Mechanism in Mechanical Performance of Aluminium Foam Fabricated by Melt Processing
The study presents mechanical performance metrics, especially, energy absorption, of aluminium foams fabricated by melt processing with CaCO3 blowing agent without Ca additive. Relatively ductile Al1Mg0.6Si alloy and high strength Al6Zn2.3Mg alloy comprising brittle eutectic domains were employed for the foams manufacture and then examined in conditions of uniaxial quasi-static compression. It was recognized that mechanical response of the foams and energy absorption is radically defined by the mechanism of cell collapse which, in turn, depends on the nature of structural constituents of the cell wall material. In particular, the presence of brittle eutectic domains in the cell wall material of foam based on Al6Zn2.3Mg alloy results in reducing the compressive strength and energy absorption compared to those of foam processed with Al1Mg0.6Si alloy, both deviate markedly from the theoretical predictions. In spite of this experimental verification of foams cell collapse is considered to be strongly required before their engineering application.
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