材料科学
气体保护金属极电弧焊
焊接
电弧焊
冶金
保护气体
弧(几何)
钨极气体保护焊
热影响区
焊条电弧焊
电弧
等离子弧焊接
填充金属
埋弧焊
熔池
阳极
电极
复合材料
阴极
电阻焊
作者
Sylwia Zielinska,Flavien Valensi,Nadia Pellerin,Stéphane Pellerin,Karol Musiol,Charles de Izarra,Francis Briand
标识
DOI:10.1016/j.jmatprotec.2008.08.023
摘要
Abstract The nature of the applied shielding gas has a strong influence on arc stability and transfer metal mode of the welding process. In particular, increase of the percentage of carbon dioxide in argon induces the increase of the transition current value from the globular to spray metal transfer mode. This work shows that these effects are linked to the chemical and microstructural modifications of the anode tip during the gas metal arc welding process. The microstructure of the anode is investigated for various experimental conditions. Transition between the two transfer modes is linked to the existence and disappearance of a rather insulating oxide “gangue” at the wire extremity whose nature depends of the shielding gas. Chemical reactions at high temperature such as oxidation–reduction reactions between shielding gas and melted metal govern the transition of the spray-arc to globular transfer mode.
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