OPTIMAL TENSILE-SHEAR STRENGTH OF GALVANIZED/MILD STEEL (SPCC-SD) DISSIMILAR RESISTANCE SPOT WELDING USING TAGUCHI DOE

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY Jurnal Teknologi-Sciences & Engineering Pub Date : 2023-06-25 DOI:10.11113/jurnalteknologi.v85.17193
Sukarman -, Khoirudin -, D. Mulyadi, Nana Rahdiana, Amri Abdulah, Rohman -, C. Anwar
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引用次数: 1

Abstract

This paper demonstrates the optimization of resistance spot welding on different connections of galvanized steel sheets and low carbon steels. The zinc coating on galvanized steel sheets will have an effect to reduce the welding ability in the resistance welding process. The practical Taguchi experimental technics were used by implemented adequately to optimize input factors, namely squeezing time, welding current, welding time and holding time. Statistical software implemented an analysis of variance (ANOVA) and multilinear regression to investigate and evaluate the significant input factors and compare them with the experimental output factors of resistance spot welding. The 'signal to noise ratio' (S/N ratio) results shows that the welding time and the welding current are the most significant factors on the output. The delta values ​​of welding time and welding current are 3.15 and 2.25, respectively. The ANOVA results showed that welding current and welding time are the most contributing factors by 23.5% and 51.4%, respectively. Taguchi recommends an optimal squeezing time of 20 cycles, a welding current of 27 kA, a welding time of 36 cycles, and a hold/cooling time of 15 cycles. The highest output reaches a tensile shear strength of 5762.04 N on the third iteration. The present research has successfully identified significant variable inputs for resistance spot welding, namely welding current and welding time. In the future, the relevant research may use our corresponding results to improve the RSW practical procedure for other significant impacts.
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用田口doe进行镀锌/低碳钢(spcc-sd)异种电阻点焊的最佳抗拉剪切强度研究
本文对镀锌钢板和低碳钢不同连接的电阻点焊进行了优化。镀锌钢板上的锌涂层会降低电阻焊接过程中的焊接能力。充分利用实际的田口实验工艺,对挤压时间、焊接电流、焊接时间和保温时间等输入因素进行了优化。统计软件实现了方差分析(ANOVA)和多元线性回归,以调查和评估电阻点焊的显著输入因素,并将其与电阻点焊的实验输出因素进行比较。“信噪比”(S/N比)结果表明,焊接时间和焊接电流是影响输出的最重要因素。delta值​​焊接时间和焊接电流的比值分别为3.15和2.25。方差分析结果表明,焊接电流和焊接时间是最大的影响因素,分别为23.5%和51.4%。田口建议最佳挤压时间为20个循环,焊接电流为27kA,焊接时间为36个循环,保持/冷却时间为15个循环。在第三次迭代中,最高输出达到5762.04N的拉伸剪切强度。目前的研究已经成功地确定了电阻点焊的重要变量输入,即焊接电流和焊接时间。未来,相关研究可能会利用我们的相应结果来改进RSW的实际程序,以应对其他重大影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Jurnal Teknologi-Sciences & Engineering
Jurnal Teknologi-Sciences & Engineering ENGINEERING, MULTIDISCIPLINARY-
CiteScore
1.30
自引率
0.00%
发文量
96
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