Optimization of friction welding using response surface method and Taguchi

THE 4TH BIOMEDICAL ENGINEERING’S RECENT PROGRESS IN BIOMATERIALS, DRUGS DEVELOPMENT, HEALTH, AND MEDICAL DEVICES: Proceedings of the International Symposium of Biomedical Engineering (ISBE) 2019 Pub Date : 2019-12-10 DOI:10.1063/1.5138313

S. Akhmad, H. Muzakki, Setya Mujaini, Yusqy Fajrul Falah

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引用次数: 1

Abstract

Welding process affect to the reducing tensile strength value in the weld joint. Improvement to weld joint performance is still studied such as friction welding. This study discussed optimization from welding parameters with Response Surface Method and Taguchi. Based on ANOVA results, that RSM and Taguchi method could be used to optimize the welding parameter. Welding parameter of friction welding could join SS304 with the highest tensile strength 766 pascal. Weld join optimize was 766.5 Pascal when welded with 920 rpm of rotation speed, 9 mm for diameter, and joining time was 2 sec. RSM recommended optimize could be achieved when tensile strength was 624 pascal, rotation speed was 556 rpm, joining time was 0.45 sec, and diameter of specimen 9 mm. Taguchi method could optimize when rotation speed 1466 rpm, diameter specimen 9 mm, and joining time 0.32 sec.Welding process affect to the reducing tensile strength value in the weld joint. Improvement to weld joint performance is still studied such as friction welding. This study discussed optimization from welding parameters with Response Surface Method and Taguchi. Based on ANOVA results, that RSM and Taguchi method could be used to optimize the welding parameter. Welding parameter of friction welding could join SS304 with the highest tensile strength 766 pascal. Weld join optimize was 766.5 Pascal when welded with 920 rpm of rotation speed, 9 mm for diameter, and joining time was 2 sec. RSM recommended optimize could be achieved when tensile strength was 624 pascal, rotation speed was 556 rpm, joining time was 0.45 sec, and diameter of specimen 9 mm. Taguchi method could optimize when rotation speed 1466 rpm, diameter specimen 9 mm, and joining time 0.32 sec.

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基于响应面法和田口法的摩擦焊接优化

焊接工艺对焊缝抗拉强度降低值有影响。改善焊接接头性能的方法仍在研究中，如摩擦焊接。采用响应面法和田口法对焊接参数进行优化。基于方差分析结果，RSM和田口法可用于优化焊接参数。焊接参数为摩擦焊，可连接SS304，最高抗拉强度为766帕斯卡。当焊接转速为920 rpm、直径为9 mm、连接时间为2秒时，焊缝连接优化值为766.5 Pascal。当抗拉强度为624 Pascal、转速为556 rpm、连接时间为0.45 sec、试件直径为9 mm时，RSM推荐的最佳连接值可达到。当转速为1466 rpm，试样直径为9 mm，焊接时间为0.32秒时，田口法最优。焊接工艺对焊缝抗拉强度降低值有影响。改善焊接接头性能的方法仍在研究中，如摩擦焊接。采用响应面法和田口法对焊接参数进行优化。基于方差分析结果，RSM和田口法可用于优化焊接参数。焊接参数为摩擦焊，可连接SS304，最高抗拉强度为766帕斯卡。当焊接转速为920 rpm、直径为9 mm、连接时间为2秒时，焊缝连接优化值为766.5 Pascal。当抗拉强度为624 Pascal、转速为556 rpm、连接时间为0.45 sec、试件直径为9 mm时，RSM推荐的最佳连接值可达到。田口法在转速1466 rpm、试样直径9 mm、连接时间0.32秒时最优。

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THE 4TH BIOMEDICAL ENGINEERING’S RECENT PROGRESS IN BIOMATERIALS, DRUGS DEVELOPMENT, HEALTH, AND MEDICAL DEVICES: Proceedings of the International Symposium of Biomedical Engineering (ISBE) 2019

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