Effects of electrode tip morphology on resistance spot welding quality of DP590 dual-phase steel

被引:0
作者
Bin Wang
Lin Hua
Xiaokai Wang
Yuke Song
Yali Liu
机构
[1] University of Technology,Hubei Key Laboratory of Advanced Technology for Automotive Components Wuhan
[2] Hubei Collaborative Innovation Center for Automotive Components Technology,School of Automotive Engineering
[3] Wuhan University of Technology,undefined
来源
The International Journal of Advanced Manufacturing Technology | 2016年 / 83卷
关键词
Electrode pitting; Electrode tip diameter enlargement; Electrode tip morphology; Resistance spot welding; Dual-phase steel;
D O I
暂无
中图分类号
学科分类号
摘要
Electrode pitting (EP) and electrode tip diameter enlargement (ETDE) are the two major representations of electrode wear, which lead to the change of electrode tip morphology and have significant impacts on the resistance spot welding (RSW) quality. In order to analyze the effects of electrode tip morphology on RSW quality of DP590 dual-phase steel, the RSW finite element (FE) model is developed to predict the nugget shape and size, whose reliability is verified by experimental observation. Tensile-shear tests are carried out to illustrate the failure behaviors. Three nugget shapes and two failure modes are obtained from different conditions of electrode tip morphology. The results show that EP morphologies produce incomplete fusion at the center of the workpieces’ faying surface, while ETDE morphologies reduce the nugget sizes. Both obvious EP and ETDE morphologies resulted in a decline of lap shear fracture load (LSFL).
引用
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页码:1917 / 1926
页数:9
相关论文
共 81 条
[1]  
Yang HG(2010)Investigations on the weldability of high-strength steels sheet to cylindrical tube single-sided spot welding Int J Adv Manuf Technol 49 513-518
[2]  
Liu XM(2014)Effect of resistance spot welding parameters on weld pool properties in a DP600 dual-phase steel: a parametric study using thermomechanically-coupled finite element analysis Mater Des 56 387-397
[3]  
Zhang YS(2012)The effect of welding parameters on fracture toughness of resistance spot-welded galvanized DP600 automotive steel sheets Int J Adv Manuf Technol 58 1043-1050
[4]  
Chen GL(2014)Failure analysis of dissimilar thickness resistance spot welded joints in dual-phase steels during tensile shear test Mater Des 55 366-372
[5]  
Mohsen E(1995)Electrode deformation when spot welding coated steels Weld World 35 160-166
[6]  
Mark AT(2003)Effects of electrode degradation on electrode life in resistance spot welding of aluminum alloy 5182 Weld J 82 307s-312s
[7]  
Mohsen AZ(2008)Characteristics of electrode wear in resistance spot welding dual-phase steels Mater Des 29 279-283
[8]  
Sergio D(2005)Effect of electrode wear on weld nugget formation in resistance spot welding of magnesium alloy Trans Nonferrous Metals Soc China 15 327-330
[9]  
Hayat F(1996)Predication of electrode campaign life when spot welding zinc coated steels incorporating electrode tip dressing operations Ironmak Steelmak 23 157-226
[10]  
Sevim İ(2004)Electrode pitting in resistance spot welding of aluminum alloy 5182 Metall Mater Trans A 35A 217-207
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