Microstructure and mechanical properties of a cast heat-resistant rare-earth magnesium alloy

IF 1.6 3区 材料科学 Q2 Materials Science
Xiao-ping Zhu, Jun-qing Yao, Hai-long Wu, Xin-wang Liu, Hua Liu, Zi-tian Fan, Shu-lin Lü, Kai Wang, Zi-dong Wang
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引用次数: 0

Abstract

Microstructure, mechanical properties and phase transformation of a heat-resistant rare-earth (RE) Mg-16.1Gd-3.5Nd-0.38Zn-0.26Zr-0.15Y (wt.%) alloy were investigated. The as-cast alloy is composed of equiaxed α-Mg matrix, net-shaped Mg5RE and Zr-rich phases. According to aging hardening curves and tensile properties variation, the optimized condition of solution treatment at 520 °C for 8 h and subsequent aging at 204 °C for 12 h was selected. The continuous secondary Mg5RE phase predominantly formed at grain boundaries during solidification transforms to residual discontinuous β-Mg5RE phase and fine cuboid REH2 particles after heat treatment. The annealed alloy exhibits good comprehensive tensile property at 350 °C, with ultimate tensile strength of 153 MPa and elongation to fracture of 6.9%. Segregation of RE elements and eventually RE-rich precipitation at grain boundaries are responsible for the high strength at elevated temperature.
铸造耐热稀土镁合金的组织与力学性能
研究了耐热稀土(RE) Mg-16.1Gd-3.5Nd-0.38Zn-0.26Zr-0.15Y (wt.%)合金的显微组织、力学性能和相变。铸态合金由等轴α-Mg基体、网状Mg5RE和富zr相组成。根据时效硬化曲线和拉伸性能变化,选择520℃固溶处理8 h, 204℃时效12 h的最佳工艺条件。凝固过程中主要在晶界处形成的连续的Mg5RE次生相在热处理后转变为残余的不连续的β-Mg5RE相和细小的长方体REH2颗粒。退火合金在350℃时具有良好的综合抗拉性能,抗拉强度为153 MPa,断裂伸长率为6.9%。稀土元素的偏析和最终在晶界处的富稀土析出是高温下高强度的原因。
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来源期刊
China Foundry
China Foundry 工程技术-冶金工程
CiteScore
2.10
自引率
25.00%
发文量
1646
审稿时长
3.0 months
期刊介绍: China Foundry, published bimonthly to a worldwide readership, mainly reports on advanced scientific and technical achievements, applied technology, production successes, management and leadership, recent developments and industry information in the foundry field. Coverage encompasses all casting technologies and includes, but is not limited to, novel and net shape casting technologies; casting alloy design and modification; control of nucleation, solidification and microstructure & mechanical properties; computer aided design; rapid prototyping; mold making, mold materials and binders; mold and gating design; melting and liquid-metal treatment and transport; modeling and simulation of metal flow and solidification; post-casting treatments; quality control and non-destructive testing; process automation and robotics; and safety and environmental issues.
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