电阻点焊中分流的数学模型

Manabu FUKUMOTO, Naoya TADA
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摘要

在广泛应用于汽车车身装配的电阻点焊中,为了提高焊接件的强度和刚度,提高碰撞安全性和乘坐舒适性,减小焊缝间距(短节距焊接)已被实际应用。在短节距焊接中,不可避免地会有分流电流通过先前的焊接点,从而延迟了核块的形成和生长,但由于分流的程度不仅与焊接间距有关,而且与焊片组合有关,因此很难知道分流的程度。为了研究分流现象,已经提出了几种理论模型,但在实际应用中存在一些关键问题,如对分流电阻的过高估计和许多参数需要通过实验确定。在本研究中,建立了一个数学模型,该模型可以在只有一个实验参数的情况下,很容易地预测有效焊接电流(或非有效分流电流)与总输入电流的比值。利用该模型,可以根据已知的第一次焊缝熔核生长曲线,预测考虑分流效应的第二次焊缝的延迟熔核生长曲线。此外,通过实验验证了分流电流缓解三片堆焊的有效性,并利用该模型估计了最大焊接电流范围的最佳焊距。
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A Mathematical Model of Shunting in Resistance Spot Welding
In resistance spot welding, which is widely used for assembling automobile bodies, reduction of weld spacing (short-pitch welding) has been put to practical use to improve the strength and stiffness of the welded assemblies and to advance collision safety and ride comfort. In short-pitch welding, shunt current going through the previously welded points is inevitable and delays nugget formation and growth, but it is difficult to know the degree of shunting because it varies depending not only on the weld spacing but also on the sheet combination. In order to study the shunt phenomenon, several theoretical models have been proposed, but they have some critical problems in practical use, such as overestimation of the shunt resistance and many parameters to be determined from experiments. In this study, a mathematical model is established which can easily predict the ratio of effective weld current (or non-effective shunt current) to the total input current with only one experimental parameter, in the case of two-sheet stack-up with a single existing (shunting) weld. By using this model, delayed nugget growth curve of the second weld can be predicted taking the shunting effects into account, from the known nugget growth curve of the first weld. Furthermore, the efficiency of the shunt current to ease some three-sheet stack-ups welding was shown experimentally, and the optimal weld-spacing to maximize the welding current range was estimated by the proposed model.
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