喷嘴
电火花加工
因科镍合金
材料科学
火花隙
冲洗
表面粗糙度
机械工程
机械加工
SPARK(编程语言)
表面光洁度
放电
转速
电压
机械
复合材料
计算机科学
冶金
工程类
物理
合金
电气工程
电极
程序设计语言
医学
量子力学
内分泌学
作者
Muhammad Umar Farooq,Saqib Anwar,M. Saravana Kumar,Abdullah Yahia AlFaify,Muhammad Asad Ali,Raman Kumar,Rodolfo E. Haber
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2022-10-20
卷期号:15 (20): 7330-7330
被引量:31
摘要
One of the sustainability goals in the aeronautical industry includes developing cost-effective, high-performance engine components possessing complex curved geometries with excellent dimensional precision and surface quality. In this regard, several developments in wire electric discharge machining have been reported, but the influence of flushing attributes is not thoroughly investigated and is thus studied herein. The influence of four process variables, namely servo voltage, flushing pressure, nozzle diameter, and nozzle–workpiece distance, were analyzed on Inconel 718 in relation to geometrical errors (angular and radial deviations), spark gap formation, and arithmetic roughness. In this regard, thorough statistical and microscopical analyses are employed with mono- and multi-objective process optimization. The grey relational analysis affirms the reduction in the process’s limitations, validated through confirmatory experimentation results as 0.109 mm spark gap, 0.956% angular deviation, 3.49% radial deviation, and 2.2 µm surface roughness. The novel flushing mechanism improved the spark gap by 1.92%, reducing angular and radial deviations by 8.24% and 29.11%, respectively.
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