Optimization of Laser Beam Welding Parameters for 90/10 Cupronickel Alloy Welds Using Taguchi Method

Strojnícky časopis - Journal of Mechanical Engineering Pub Date : 2022-04-01 DOI:10.2478/scjme-2022-0009

Praveena Chakravarthy Maddili, Santha Rao Dakarapu

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Abstract

Abstract This study is to identify the most important control elements that will result in improve the tensile strength of Laser Beam Welded Cu-Ni 90/10 alloy joints. The different laser welding process parameters and levels were used for joining of Cu-Ni alloy. The process parameters like Laser Power (LP), Shielding Gas (argon) (SG), Focal Position (FP), & Welding Speed (WS) were chosen in the experimental study. The welding was carried on 4mm thick plate as per Taguchi’s experimental design. The mechanical properties were evaluated and microstructural observations were carried out. It was discovered that highest tensile strength of 234 MPa & hardness of 83 Hv were obtained which has 90 % and 87 % of the base material. The most influential optimal process parameters were determined using S/N analysis and the percentage contribution of each process parameter was estimated using ANOVA. It was found that laser power was influential parameter with a 64 % contribution in obtaining highest strength of laser welded joints. The experimental values and the results of the confirmation experiments were in good agreement.

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用田口法优化90/10铜镍合金焊缝激光焊接参数

摘要:本研究旨在确定提高Cu-Ni 90/10合金激光焊接接头抗拉强度的最重要控制因素。采用不同的激光焊接工艺参数和水平对铜镍合金进行了焊接。实验中选择了激光功率(LP)、保护气体(SG)、焦点位置(FP)和焊接速度(WS)等工艺参数。根据田口的实验设计，焊接在4mm厚的板上进行。对其力学性能进行了评价，并进行了显微组织观察。结果表明，该合金的最高抗拉强度为234 MPa，硬度为83 Hv，分别为母材的90%和87%。采用信噪比分析确定影响最大的最佳工艺参数，并采用方差分析估计各工艺参数的贡献百分比。结果表明，激光功率是影响激光焊接接头最高强度的重要参数，对焊接接头的最高强度贡献达64%。实验值与验证实验结果吻合较好。

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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Strojnícky časopis - Journal of Mechanical Engineering

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