Preliminary Study on Arc Welding in Vacuum

2006 International Symposium on Discharges and Electrical Insulation in Vacuum Pub Date : 2006-09-01 DOI:10.1109/DEIV.2006.357414

H. Toya, K. Hieda, T. Saitou

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引用次数: 2

Abstract

Welding technology in space is required to repair the space station. Arc welding in vacuum should be more conventional than electron beam welding because of low voltage operation. Preliminary study on vacuum arc welding is presented in this paper. Arc was ignited by separating an arcing electrode (cathode) from the welding piece (anode). The former is composed of a rod with round tip, however the latter of a screw/nut set. Both of them are made of stainless-steal (SUS304). A pulsed-arc current up to approx. 3kA with duration of about 15-20ms was fed from a power supply that was consisted of a low-voltage LC circuit (135 muH/0.04F/550V) with a crowbar diode. The screw/nut seemed to be uniformly melted by eye. The tensile strength of the welded piece was measured after welding test. However it was low in comparison with a TIG welding piece performed in an atmospheric pressure. One-dimensional thermal conduction was analyzed in a finite welding piece. The calculated result showed that the melting depth could be over 1mm when the arc current flows for more than 10-15 times longer than that in this experiment. Further investigation is required to find appropriate conditions (arc current, arc discharge mode, welding material, etc) to realize satisfactory arc welding in vacuum

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真空弧焊的初步研究

太空焊接技术是修复空间站所必需的。真空弧焊由于操作电压低，应比电子束焊更常规。本文对真空弧焊进行了初步研究。电弧是通过将电弧电极(阴极)与焊件(阳极)分离而点燃的。前者是由一个杆与圆的尖端，但后者是一个螺钉/螺母设置。它们都是由不锈钢(SUS304)制成。脉冲电弧电流高达约。3kA的持续时间约为15-20ms，电源由低压LC电路(135 muH/0.04F/550V)和撬棍二极管组成。螺钉/螺母似乎被均匀地熔化了。焊接试验结束后，对焊接件的抗拉强度进行了测定。然而，与在大气压力下进行的TIG焊接件相比，它是低的。对有限焊接件的一维热传导进行了分析。计算结果表明，当电弧电流流动时间比本实验长10-15倍以上时，熔化深度可达1mm以上。要实现满意的真空弧焊，需要进一步研究合适的条件(电弧电流、电弧放电方式、焊接材料等)

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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2006 International Symposium on Discharges and Electrical Insulation in Vacuum

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