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激光选区熔化AlSi10Mg合金微观组织及力学性能研究 被引量:14

Microstructure and Mechanical Properties of AlSi10Mg Alloy Fabricated by Selective Laser Melting
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摘要 AlSi10Mg合金具有良好的气密性,较好的流动性,热裂倾向小,收缩率小,强度高等优点,在汽车、航空航天等领域被广泛应用。随着零部件轻量化的需求增大,铝合金零件的结构和形状也愈发复杂,传统铸造技术已经无法满足市场需求。鉴于此,研究采用激光选区熔化技术快速凝固成形AlSi10Mg合金。利用激光选区熔化技术制备AlSi10Mg合金,主要分析了激光选区熔化后和不同温度时效处理后合金的显微组织、物相构成以及力学性能的变化。试验结果表明,激光选区熔化AlSi10Mg合金显微组织由基体区和热影响区组成,不同层之间的熔池呈椭圆形叠加分布,熔池宽约为250~300μm,深为100~200μm。时效处理后,由于Si原子的扩散,枝晶状态的共晶硅完全转变为颗粒状,且随着时效温度的升高,共晶硅的平均尺寸增加。时效处理前后,合金的物相均由A1基体相和Si相组成,但是时效后,由于过饱和Al(Si)固溶体的Si原子的析出,A1相的峰值向左偏移。激光选区熔化后合金具有最高的硬度值,时效处理后,硬度值急剧下降。随时时效温度的升高,硬度值降低。激光选区熔化技术能够有效细化AlSi10Mg合金的微观组织,并能显著提高合金的力学性能。 AlSi10Mg alloy displays excellent properties, such as good air tightness, good fluidity, small thermal cracking tendency, small shrinkage and high strength. It is widely used in automotive* aerospace and other fields. With the increasing demand for lightweight components, the structure and shape of aluminum alloy parts become more complex, and traditional casting techniques is difficult to meet market demands. In view of this, the rapid solidification of AlSi10Mg alloy by selective laser melting (SLM) was studied. The AlSi10Mg alloy was prepared by selective laser melting (SLM) technique. The microstructure, phase composition and mechanical properties of the alloy after laser treatment and melting at different temperatures were analyzed. The experimental results show that the microstructure of the AlSi10Mg alloy by selective laser melting consists of the matrix region and the heat-affected zone. The molten pool between the different layers are elliptically superposition. The width of the molten pool is about 250~300μm, and the depth is about 100~200μm. After the aging treatment, due to the diffusion of Si atoms, the eutectic silicon in the dendritic state is completely transformed into a granular shape, and as the aging temperature increases, the average size of the eutectic silicon increases. The phase of the alloy consist of Al matrix phase and Si phase before and after the aging treatment. However, after aging, the peak of the Al phase shifts to the left due to precipitation of Si atoms in the supersaturated Al(Si) solid solution. After the selective laser melting. the alloy has the highest hardness value.and the hardness value decreases sharply after the aging temperature. When the temperature rises at any time, the hardness value decreases. Selective laser melting technology can effectively refine the microstructure of AlSi10Mg alloy and significantly improve the mechanical properties of the alloy.
作者 柯宇 马盼 马永超 刘玉柱 张积琛 刘泽亚 赵亮 张世凯 Ke Yu;Ma Pan;Ma Yongchao;Liu Yuzhu;Zhang Jichen;Liu Zeya;Zhao Liang;Zhang Shikai(Shanghai University of Engineering Science ,Shanghai 201620,China;Shantui Construction Machinery Co.,Ltd,Jining,Shandong 272073,China)
出处 《应用激光》 CSCD 北大核心 2019年第2期198-203,共6页 Applied Laser
基金 上海市大学生创新资助项目(项目编号:CS1705001) 上海市高校青年教师培养资助计划项目(项目编号:ZZGCD15100) 上海市“创新行动计划”基础研究领域资助项目(项目编号:17JC1400600,17JC1400601)
关键词 AlSi10Mg合金 激光选区熔化 时效 微观组织 相组成 硬度 AlSi10Mg alloy selective laser melting aging microstructure phase composition hardness
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