磨料水射流加工参数对杂化金属基复合材料材料去除率的影响

D. Maneiah, M. Shunmugasundaram, A. P. Kumar, D. Mishra, M. A. Kumar
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引用次数: 0

摘要

金属基铝基复合材料在当今工业中发挥着至关重要的作用。铝基材料用于汽车工业,通过减轻汽车重量来最大限度地提高行驶里程。本文以铝、铜、镍为基体材料,氮化硼为增强材料,研制了杂化铝基金属基复合材料。以磨料为输入加工参数,以材料去除率为输出参数,考虑进给速率、喷嘴与材料的距离和水流速率,采用磨料水射流加工方法对研制的复合材料进行孔加工。采用基于田口法的L9阵列方法,求出9组加工参数并进行优化,以实现材料去除率最大化。采用方差表分析来检验输入加工参数的结果,并采用曲面图、等高线图来识别输入加工变量对输出的影响。优化后的加工参数为进给速度为20mm/min,备用喷嘴距离为3mm,磨料水流速为400 gm/min,以最大限度地提高材料去除率。
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Influence of abrasive water jet machining parameters on material removal rate of hybrid metal matrix composites
Metal based aluminum matrix composites now show a crucial part in today’s industry. Aluminum based is used in automobile industries to maximizing the millage by reducing the weight of automobiles. In this investigation, the hybrid aluminum based metal matrix composite is developed by selected by aluminum, copper and nickel as matrix material and boron nitride as reinforcement materials. The abrasive water jet machining is employed to make the hole in developed composite by considering the rate of feed, distance stand of nozzle from material and stream rate of water with abrasive as input machining parameters and material removal rate as output parameters. Taguchi approach based L9 array method is employed to find nine set of machining parameters and optimizing for maximizing material removal rate. Analysis of variance table is employed to check the consequenceof input machining parameters and the surface plot, contour graphis adopted to identify the influence of input machiningvariables on the output. The optimized machining parameters are rate of feed is 20mm/min, distance of stand by nozzle 3mm and the flow rate of abrasive water with 400 gm/min for maximizing the material removal rate.
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