The effective drag width of short moving arcs in argon

British Journal of Applied Physics Pub Date : 1967-09-01 DOI:10.1088/0508-3443/18/9/311
K. Naylor, A. Guile
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引用次数: 12

Abstract

Previous experiments have shown that short arcs rotating between ringshaped electrodes in a radial magnetic field move at a speed which is controlled by aerodynamic drag on the arc column when the pressure is above 1-2 atm. For these conditions it is possible to calculate an effective average arc size (which includes a drag coefficient) transverse to the direction of motion. Measurements have been made which enable the change in this effective arc size due to (a) arc speed, (b) arc current, (c) inter-electrode spacing and (d) gas pressure to be estimated for arcs moving in argon at a pressure of 3 atm. These changes are shown for arc speeds up to 80 m sec-1, arc currents up to 700 A and for spacings up to 1 cm, and it is suggested that electrode material introduced by vapour jets may be a significant factor.
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氩中短运动电弧的有效阻力宽度
先前的实验表明,当压力在1-2 atm以上时,在径向磁场中环形电极之间旋转的短电弧的运动速度由电弧柱上的气动阻力控制。对于这些条件,可以计算横向运动方向的有效平均弧尺寸(包括阻力系数)。对于在3atm压力下在氩气中移动的电弧,已经进行了测量,可以估计出由于(a)电弧速度,(b)电弧电流,(c)电极间距和(d)气体压力而导致的有效电弧尺寸的变化。这些变化显示在电弧速度高达80米秒,电弧电流高达700 A,间距高达1厘米时,并且表明由蒸汽射流引入的电极材料可能是一个重要因素。
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British Journal of Applied Physics
British Journal of Applied Physics
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