CONCERNING THE MELTING OF AN ALUMINIUM ELECTRODE BY THE ARGON ARC OF STRAIGT POLARITY

V. Sidorov, D. E. Sovetkin, N. Borisov
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引用次数: 1

Abstract

: This paper gives the information analysis on the ratio of the melting rate of electrode wire on welding arcs of direct and reverse polarity in СО 2 . At equal currents, the melting rate on direct polarity arc is about two times higher than the melting rate on reverse polarity arc. When welding in shielding gases, the reason to refuse the use of direct polarity arc is the low melting rate stability of the electrode wire. It is caused by the intense moving of arc cathode spot affected by the emissivity change of the electrode surface. Within the scope of this paper, the authors propose a calculation method for arc power transmitted to a consumable aluminum electr ode on various polarities. The calculated specific power (per 1 А of the current) is significantly higher for electrode-cathode, and when step-up the current, the power increases more inten-sively than for anode. The experiment determined the melting rate of aluminum electrode wire of 1.2 mm diameter for direct polarity arc in argon. It is as well about two times higher than for reverse polarity. Within the limits of 80– 180 А currents on the arc direct polarity, there was not defined any significant dependence between the melting ratio of aluminum wire and arc current. The calculation method ensures good convergence of designed and experimental data on the ratio of electrode melting rates on different polarities. The formulas obtained allowed evaluating the effective arc power in argon for aluminum products. Further researches are to be aimed at defining the stability conditions of the melting rate of electrode wire on direct polarity arc in shielding gases. It is especially necessary for welding of heavy thickness parts to reach more efficient filling of edge preparation.
关于用直极性氩弧熔化铝电极
本文对СО 2中正反极性焊接电弧上焊丝熔化速率的比值进行了信息分析。在电流相等的情况下,正极性电弧的熔化速率大约是反极性电弧熔化速率的两倍。在保护气体中焊接时,拒绝使用直极性电弧的原因是电极丝熔化速率稳定性低。这是由于电弧阴极光斑受电极表面发射率变化的影响而剧烈移动所致。在本文的范围内,作者提出了一种在不同极性上传输到铝材电极的电弧功率的计算方法。计算出的比功率(每1 А电流)对于电极-阴极来说明显更高,并且当增加电流时,功率的增加比阳极更强烈。实验测定了直径为1.2 mm的直极性电弧铝电极丝在氩气中的熔化速率。它也大约是反极性的两倍。在80 ~ 180 А电流对电弧直极性的影响范围内,铝丝熔化率与电弧电流之间没有明显的相关性。该计算方法保证了不同极性上电极熔化速率比的设计数据和实验数据的良好收敛。所得公式可用于铝制品在氩气中有效电弧功率的评定。进一步的研究旨在确定保护气体中直极性电弧上电极丝熔化速率的稳定条件。对于厚件的焊接尤其需要达到更有效的边料填充。
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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