Characterization of galvanized steel-low alloy steel arc stud welded joint

Q3 Engineering

Journal of Achievements in Materials and Manufacturing Engineering Pub Date : 2023-04-01 DOI:10.5604/01.3001.0053.6707

S. Abbas, M. Alali, M. Abass, W. Abbas

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引用次数: 0

Abstract

This paper investigates the possibility of successfully welding a Low Alloy Steel (LAS) stud to Galvanized Steel (GS) plate.Arc Stud Welding (ASW) was performed on joining LAS studs to GS plates. Welding parameters were selected based on weld trails. The first tests of the welded joints were based on visual inspection for welding defects such as lack of fusion and undercut welding defects. The good quality should be free of these defects and have full weld reinforcement. Other weld qualifications included torque strength test, microhardness test, and microstructure examination.The LAS studs have been successfully welded to a galvanized steel plate using the arc stud welding process. Higher welding current with adjusted welding time (800 A, 0.3 s) gave full weld reinforcement, the best joint appearance, and strength. Martensite phase was detected in the weld area and heat affected zone (HAZ), affecting the joint mechanical properties. Hardness property varied across the welded joint, and maximum hardness was recorded at the HAZ at the stud side. Hardness increased with the increasing welding current. At 800 A, welding current hardness was 10% higher than at 400 and 600 A. Torque strength was affected by weld reinforcement, and 800 A gave the best weld reinforcement that produced the highest torque strength.The main research limitation is the difficulty of welding LAS studs and GS plates. In conventional welding methods, such as gas metal arc welding, it is hard to get full weld penetration due to the geometry restrictions of the joint, which results in partial weld penetration between the studs and the plates. Furthermore, the issue of zinc evaporation during welding can be reduced by the advantage of the very high welding speed (in milliseconds) of ASW that overcomes the problem of continuous welding that usually results in the formation of harmful porosities and poor weldability.In this research, galvanized steel plates were successfully welded to LAS studs using the ASW process. The welding parameters for this dissimilar welding joint were carefully selected. Microstructure changing due to the welding process was investigated. The joint mechanical properties were evaluated.

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镀锌钢-低合金钢电弧螺柱焊接接头的表征

本文研究了低合金钢(LAS)螺柱成功焊接到镀锌钢板(GS)的可能性。采用电弧螺柱焊(ASW)将LAS螺柱与GS板连接。根据焊缝轨迹选择焊接参数。焊接接头的第一次试验是基于目视检查焊接缺陷，如缺乏熔合和下切焊接缺陷。良好的质量应该没有这些缺陷，并有充分的焊接加固。其他焊接资格包括扭矩强度测试、显微硬度测试和显微结构检查。采用电弧螺柱焊工艺成功地将LAS螺柱焊接到镀锌钢板上。较大的焊接电流，调整焊接时间(800 A, 0.3 s)，焊缝增强充分，接头外观和强度最佳。焊缝区和热影响区存在马氏体相，影响了接头的力学性能。焊接接头的硬度性能各不相同，最大硬度记录在螺柱侧的热影响区。硬度随焊接电流的增大而增大。在800 A时，焊接电流硬度比400和600 A时高10%。转矩强度受焊缝补强的影响，800a的焊缝补强效果最好，产生的转矩强度最高。研究的主要局限是LAS螺柱与GS板的焊接困难。在传统的焊接方法中，如气体保护金属电弧焊，由于接头的几何形状的限制，很难得到完全的焊透，导致螺柱与板之间的部分焊透。此外，由于ASW的焊接速度非常快(毫秒级)，克服了连续焊接通常会导致有害孔隙形成和可焊性差的问题，因此可以减少焊接过程中锌的蒸发问题。在本研究中，采用ASW工艺成功地将镀锌钢板焊接到LAS螺柱上。对这种异种焊接接头的焊接参数进行了精心选择。研究了焊接过程中组织的变化。对接头力学性能进行了评价。

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

Journal of Achievements in Materials and Manufacturing Engineering Engineering-Industrial and Manufacturing Engineering

CiteScore

2.10

自引率

0.00%

发文量

期刊介绍： The Journal of Achievements in Materials and Manufacturing Engineering has been published by the Association for Computational Materials Science and Surface Engineering in collaboration with the World Academy of Materials and Manufacturing Engineering WAMME and the Section Metallic Materials of the Committee of Materials Science of the Polish Academy of Sciences as a monthly. It has 12 points which was received during the evaluation by the Ministry of Science and Higher Education journals and ICV 2017:100 on the ICI Journals Master list announced by the Index Copernicus. It is a continuation of "Proceedings on Achievements in Mechanical and Materials Engineering" published in 1992-2005. Scope: Materials[...] Properties[...] Methodology of Research[...] Analysis and Modelling[...] Manufacturing and Processingv Biomedical and Dental Engineering and Materials[...] Cleaner Production[...] Industrial Mangement and Organisation [...] Education and Research Trends[...]