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Zn/Y比对Mg_(94)Zn_xY_((6-x))合金铸态组织和耐磨性能的影响

Effect of Zn/Y Atom Ratio on the As-Cast Microstructure and Wear Resisting Property of Mg_(94)Zn_xY_((6-x)) Alloys
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摘要 利用普通铸造法制备了Mg94ZnxY(6-x)(x=5.2、4、3、2、0.8)合金,考察了Zn/Y原子比对铸态组织与物相组成及摩擦磨损性能的影响。结果表明:Zn/Y比对其组织结构和物相组成有明显影响,Mg94Zn5.2Y0.8合金其合金相主要呈断续网状和颗粒状,且其物相组成较为简单,但随着Zn/Y比减小,化合物主要呈晶间连续网状析出,合金相组成变得复杂。当Zn/Y比为1∶1、1∶2时,在合金中析出Mg12ZnY三元相,几种材料的磨损机制均主要表现为犁沟磨损,粘着磨损和氧化磨损,Mg94Zn0.8Y5.2的硬度较大,耐磨性最佳。 Mg94ZnxY(6-x) (x=5.2, 4, 3, 2, 0.8) alloys were prepared by ordinary casting process, the effect of Zn/Y atom ratio on as-cast microstructure, phase composition and friction and wear properties were investigated. The results show that Zn/Y atom ratio had a significant effect on the microstructure and phase composition. For the Mg94Zn52Y0.8 alloy, its alloy phase remained mainly discontinuous mesh-shape and small granular particles, and the phase composition was relatively simple. With the decreasing of the Zn/Y atom ratio, the intermetallic compounds presented chiefly a continuous network precipitated from inter-grains, and the phase composition become complicated. Mg12ZnY ternary phase was precipitated with the Zn/Y atom ratios of 1:1 and 1:2. The wear mechanisms are mainly ploughing grooves wear, adhesive wear and oxidizing wear. The Mg94Zn0.8Y52: alloy has a higher hardness and shows the best wear resisting property. Key words: rare-earth magnesium alloy; Mg-Zn-Y alloy; Zn/Y atom ratio; friction and wear
作者 罗鹏 杜军
机构地区 华南理工大学材料科学与工程学院
出处 《铸造》 CAS CSCD 北大核心 2012年第9期1047-1050,共4页 Foundry
基金 华南理工大学学生研究计划(SRP)项目
关键词 稀土镁合金 Mg—Zn—Y合金 Zn/Y原子比 摩擦磨损 rare-earth magnesium alloy Mg-Zn-Y alloy Zn/Y atom ratio friction and wear
分类号 TG131 [一般工业技术—材料科学与工程]
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参考文献12

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铸造
2012年 第9期

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