Vander Voort George Frederic, Suárez-Peña Beatriz, Asensio-Lozano Juan
1Consultant,2887 N. Southern Hills Drive,Wadsworth,IL 60083-9293,USA.
2Department of Materials Science and Metallurgical Engineering,Polytechnic School of Engineering,University of Oviedo,Campus of Gijón,Gijón,Asturias 33203,Spain.
Microsc Microanal. 2014 Oct;20(5):1486-93. doi: 10.1017/S143192761400172X. Epub 2014 Jul 7.
A microstructural characterization study was performed on high-pressure die cast specimens extracted from escalator steps manufactured from an Al-12 wt.% Si alloy designed for structural applications. Black and white, color light optical imaging and scanning electron microscopy techniques were used to conduct the microstructural analysis. Most regions in the samples studied contained globular-rosette primary α-Al grains surrounded by an Al-Si eutectic aggregate, while primary dendritic α-Al grains were present in the surface layer. This dendritic microstructure was observed in the regions where the melt did not impinge directly on the die surface during cavity filling. Consequently, microstructures in the surface layer were nonuniform. Utilizing physical metallurgy principles, these results were analyzed in terms of the applied pressure and filling velocity during high-pressure die casting. The effects of these parameters on solidification at different locations of the casting are discussed.
对从采用用于结构应用的Al-12 wt.% Si合金制造的自动扶梯梯级中提取的高压压铸试样进行了微观结构表征研究。使用黑白、彩色光学成像和扫描电子显微镜技术进行微观结构分析。所研究样品中的大多数区域包含由Al-Si共晶聚集体包围的球状玫瑰花状初生α-Al晶粒,而表层中存在初生树枝状α-Al晶粒。在型腔填充过程中熔体未直接冲击模具表面的区域观察到这种树枝状微观结构。因此,表层的微观结构不均匀。利用物理冶金原理,根据高压压铸过程中的施加压力和填充速度对这些结果进行了分析。讨论了这些参数对铸件不同位置凝固的影响。
