研究异种金属氩弧焊过程中的参数效应

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY Mehran University Research Journal of Engineering and Technology Pub Date : 2024-01-01 DOI:10.22581/muet1982.2401.2969
Abdullah Abdullah, Shahid Mehmood, Rana Atta Ur Rahman
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引用次数: 0

摘要

本文探讨了如何优化钨极惰性气体(TIG)焊接工艺参数,以便使用铜填料棒(ER-Cu)创建铝 6061 和不锈钢 304 混合结构。这两种材料的焊接因其减重能力和环境效益而与工业息息相关。然而,铝和不锈钢具有不同的熔点和热性能。铝的热膨胀系数是不锈钢的两倍,热传导系数是不锈钢的六倍。这种差异往往会导致焊接区域产生残余应力和脆性金属间化合物。我们选择焊接电流、焊接速度和气体流速作为输入参数,极限拉伸强度 (UTS) 和显微硬度作为响应参数。我们采用方框-贝肯设计的响应面方法(RSM)来评估输入参数对 UTS 和显微硬度的影响。此外,我们还进行了方差分析(ANOVA),以确定输入参数对响应参数的影响。表面图显示,随着焊接电流的增加和焊接速度的降低,UTS 有所提高。同时,显微硬度随着焊接速度的提高和电流的减小而增加,直至特定的极限。在电流范围为 85-90 A、速度范围为 95-100 mm/min、气体流量为 14.5-15 l/min 时,可观察到 UTS 的峰值(79 MPa)。另一方面,在电流范围为 80-85 A、速度范围为 105-110 mm/min、气体流量为 14.5-15 l/min 时,获得了最大显微硬度 (260HV)。这项研究有助于改进混合结构的制造工艺,特别是通过优化铝和不锈钢的优势,同时解决它们结合过程中出现的难题。研究结论对希望在焊接应用中利用不同金属互利特性的行业具有重要影响。
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Investigating parametric effects during TIG welding of dissimilar metals
This paper explores the optimization of Tungsten-Inert-Gas (TIG) welding process parameters for creating a hybrid structure of Aluminium 6061 and Stainless Steel 304 using a copper filler rod (ER-Cu). The Welding of these two materials has industrial relevance owing to its weight reduction capabilities and environmental benefits. However, Aluminium and Stainless-Steel have different melting points and thermal properties. Aluminium has twice coefficient of thermal expansion and six times coefficient of thermal conductance as compared to Stainless-Steel. This difference often results in residual stresses and brittle intermetallic compounds in the weld region. We have chosen the Welding Current, Welding Speed, and Gas Flow Rate as input parameters, and Ultimate Tensile Strength (UTS) and Micro-hardness as response parameters. We have employed the Response Surface Methodology (RSM) using a Box-Behnken design to evaluate the influence of input parameters on UTS and Micro-hardness. Furthermore, an Analysis of Variance (ANOVA) is conducted to determine the input parameters' significance on the response parameters. Our surface plots demonstrate that UTS improves with increased Welding Current and reduced Welding Speed. Simultaneously, Micro-hardness increases with elevated Welding Speed and decreased current, up to a specific limit. The peak value of UTS (79 MPa) was observed with a Current range of 85-90 A, Speed range of 95-100 mm/min, and Gas Flow Rate of 14.5-15 l/min. On the other hand, maximum Micro-hardness (260HV) was obtained with a Current range of 80-85 A, Speed range of 105-110 mm/min, and Gas Flow Rate of 14.5-15 l/min. This research contributes to improving the manufacturing process of hybrid structures, specifically by optimizing the advantages of both Aluminium and Stainless Steel while addressing the challenges that arise during their combination. The study's conclusions have major consequences for sectors looking to take advantage on the mutually beneficial characteristics of different metals in welding applications.
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发文量
76
审稿时长
40 weeks
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