Effects of Si Addition on Microstructure, Properties and Serration Behaviors of Lightweight Al-Mg-Zn-Cu Medium-entropy Alloys

Research and Application of Materials Science Pub Date : 2019-07-22 DOI:10.33142/MSRA.V1I1.666

Yasong Li, Ruixuan Li, Yong Zhang

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引用次数: 7

Abstract

A series of as-cast lightweight multicomponent alloys Al(86-x)Mg10Zn2 Cu2 Six (x=0, 0.3, 0.6, 0.9, 1.2 at.%) were prepared by a vacuum induction furnace with a steel die. With the addition of Si, the reticular white Al-Cu phase deposited were gradually replaced by the gray eutectic Mg-Si phase, while the compressive strength of the alloys increases first and then decreases slowly. It is particularly noteworthy that the compression plasticity also exhibits this trend. When the Si content is 0.9 at.%, the compressive strength reaches its maximum at 779.11 MPa and the compressive plasticity reaches 20.91%. The effect of the addition of Si on the serration behavior of alloy was also studied; we found that the addition of Si introduces a new MgSi phase, and with the change of Si is significantly affects the morphology of the precipitated phase, which affects the serration behavior of the alloys. The comprehensive mechanical properties of the alloy are optimal at the critical point where the serration behavior disappears.In this work, we have provided a method and a composition for the preparation of a low-cost, high-strength, lightweight medium-entropy alloys.

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Si添加对轻量化Al-Mg-Zn-Cu中熵合金组织、性能和锯齿形行为的影响

采用真空感应炉钢模制备了一系列铸态轻量化多组分合金Al(86-x)Mg10Zn2 Cu2 Six (x= 0,0.3, 0.6, 0.9, 1.2 at.%)。随着Si的加入，沉积的网状白色Al-Cu相逐渐被灰色共晶Mg-Si相所取代，合金的抗压强度先升高后缓慢降低。特别值得注意的是，压缩塑性也呈现出这种趋势。当Si含量为0.9 at时。%时，抗压强度在779.11 MPa时达到最大值，抗压塑性达到20.91%。研究了Si的加入对合金锯齿化行为的影响;我们发现，Si的加入引入了一种新的MgSi相，并随着Si的变化显著影响了析出相的形貌，从而影响了合金的锯齿形行为。在锯齿行为消失的临界点处，合金的综合力学性能最佳。在这项工作中，我们提供了一种制备低成本、高强度、轻质中熵合金的方法和成分。

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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Research and Application of Materials Science

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