Numerical analysis of weld pool formation mechanism in TIG welding in consideration of the influence of emitter material adding to the tungsten cathode

Tasuku Zeniya, S. Tashiro, Manabu Tanaka, E. Yamamoto, K. Yamazaki, Keiichi Suzuki
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引用次数: 2

Abstract

Generally, ThO2 or La2O3 are added to a tungsten cathode for prompting electron emission from the cathode and preventing the cathode from consumption. In this study, influence of adding 2%ThO to the tungsten cathode as emitter material on arc properties and weld pool formation mechanism in TIG welding was investigated by employing numerical simulation model considering heat and mass transfers among the cathode, the arc and the weld pool. As a result, it was found that although the maximum cathode jet velocity in case of 2%ThO2-W cathode was 497 m/s, that in case of pure W cathode was only 156 m/s because of low current density caused by flatten surface of the melting cathode tip. In case of 2%ThO2-W cathode, the depth and the width of the weld pool became shallow wide than those in case of pure W cathode. For a reason, it is considered that because shearing force from the arc to the weld pool was larger than that of pure W cathode due to higher cathode jet velocity, the heat transport in the weld pool near the surface in radial outward direction increased
考虑射极材料加入钨阴极影响的TIG焊熔池形成机理的数值分析
一般来说,在钨阴极中加入ThO2或La2O3是为了促进阴极的电子发射,防止阴极消耗。采用考虑阴极、电弧和焊池之间传热传质的数值模拟模型,研究了在钨阴极中添加2%ThO作为射极材料对TIG焊接电弧性能和焊池形成机理的影响。结果发现,虽然2% th2 -W阴极的最大阴极喷射速度为497 m/s,但纯W阴极的最大阴极喷射速度仅为156 m/s,这是由于熔化的阴极尖端表面平坦导致电流密度低所致。当阴极为2% th2 -W时,熔池的深度和宽度比纯W时变浅变宽。有理由认为,由于阴极射流速度较高,电弧对焊缝熔池的剪切力比纯W阴极大,因此在径向向外靠近表面的焊缝熔池中传热增加
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