材料科学
粉末冶金
田口方法
烧结
碳化硼
复合材料
压实
正交数组
维氏硬度试验
复合数
金属基复合材料
抗压强度
碳化钛
碳化物
铝
钛
冶金
微观结构
作者
Tahani A. Alrebdi,R. Gopinathan,Prashant Sunagar,R. Thandaiah Prabu,Rajesh Kivade,Mahmad Ziya Gous,Abdullah N. Alodhayb,Belachew Girma Tesemma
摘要
Aluminium metal matrix composite is developed using powder metallurgy, with number of different operational factors considered. The three most important operational factors are sintering time, sintering temperature, and compaction pressure. Investigations are conducted using L9 orthogonal array as the experimental design. Density, Vickers hardness, and compressive strength are determined through experiments. The S/N ratio based on Taguchi’s law and a number of anomalies accomplished were used to determine the effect of individual input parameters (ANOVA). The main effect plots identified the optimal parameter settings for obtaining a less density, a higher hardness, and a higher compressive strength. In addition, the ANOVA analysis confirmed that the best metal matrix composite material is produced at the optimal sintering time and average temperature and compaction pressure for generally classified levels.
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