Performance Prediction of Resistance Spot Welding Joints Using a Modified GTN Model

Weiling Wen, M. Banu
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Abstract

Nowadays Al-steel joints are increasingly used in the lightweight automobile structure to meet the requirement of energy saving and CO2 emission reduction. Among various joining technologies proposed to join dissimilar material, resistance spot welding (RSW) stands out since the operation speed is fast, no extra material is needed and it is easy to be automated in mass production. Determining the joint load bearing capacity is one important task in the further application of this technology. Traditionally, it is obtained by performing some fractured tests, such as lap-shear test, coach peel test, cross tension test, by extracting and then analyzing the mechanical performance parameters including maximum load and failure energy from the force-and-displacement (F-D) curves. However, this method is time consuming and finite element simulation provides a much more efficient solution. Therefore, this work aimed at developing an experimentally validated performance model of Al-steel RSW joint. An aluminum alloy (AA6022) and a hot-dip galvanized high strength low alloy steel (HDG HSLA340), both of which are widely used in automotive industry, were joined by a unique RSW process proposed by General Motors in lap-shear configuration. To predict the joint fracture, a modified Gurson-Tvergaard-Needleman (GTN) model was applied. Finally, this performance model was validated experimentally and proved to be capable of predicting the maximum load and failure energy accurately.
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基于改进GTN模型的电阻点焊接头性能预测
为了满足节能减排的要求,铝钢连接越来越多地应用于汽车轻量化结构中。在各种不同材料的连接技术中,电阻点焊(RSW)因其操作速度快,不需要额外的材料,易于批量生产自动化而脱颖而出。节点承载能力的确定是该技术进一步应用的一项重要任务。传统的方法是通过进行拉剪试验、剥离试验、交叉拉伸试验等断裂试验,从力-位移(F-D)曲线中提取并分析最大载荷和破坏能等力学性能参数。然而,这种方法是耗时的,有限元模拟提供了一个更有效的解决方案。因此,本工作旨在建立一个实验验证的al -钢RSW接头性能模型。采用通用汽车公司提出的一种独特的RSW工艺,将汽车工业中广泛使用的铝合金(AA6022)和热浸镀锌高强度低合金钢(HDG HSLA340)进行弯剪连接。为预测关节断裂,采用改进的Gurson-Tvergaard-Needleman (GTN)模型。最后,对该性能模型进行了实验验证,证明该模型能够准确预测最大载荷和失效能。
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