Simulation of the molten metal behavior during the crater formation on the cathode surface in a vacuum arc

机译：真空电弧在阴极表面形成火山口过程中熔融金属行为的模拟

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2D axially symmetric hydrodynamic model has been developed to describe the formation of a crater and liquid-metal jets on a vacuum arc cathode using Navier-Stokes equations for an incompressible viscous fluid with a free surface and a heat conduction equation taking into account convective heat transfer. The formation of an elemental crater on a copper cathode during the operation of a cathode spot cell has been numerically simulated by varying the heat flux and the pressure produced by the cathode plasma. Based of the simulation results, we can distinguish three different modes of the crater formation process: “no splashing”, “inertial splashing”, and “active splashing”. It has been shown that a crater with metal jets forced away can be formed within 30 ns of plasma action if the heat flux density is above 10 W/m and the pressure is above 10 Pa.

机译：已经开发了二维轴向对称流体动力学模型，用于描述真空弧形阴极上火山口和液态金属射流的形成，该模型使用具有自由表面的不可压缩粘性流体的Navier-Stokes方程和考虑对流换热的热传导方程来描述。通过改变阴极等离子体产生的热通量和压力，已经在数值上模拟了阴极点电池工作期间在铜阴极上元素坑的形成。根据模拟结果，我们可以区分火山口形成过程的三种不同模式：“无飞溅”，“惯性飞溅”和“主动飞溅”。已经表明，如果热通量密度高于10 W / m且压力高于10 Pa，则在等离子作用的30 ns内会形成带有被迫离开的金属射流的火山口。

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《International Symposium on Discharges and Electrical Insulation in Vacuum》|2014年|205-208|共4页
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Mesyats G.A.; Uimanov I.V.;
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Navier-Stokes equations; cathodes; copper; heat conduction; plasma jets; plasma pressure; plasma simulation; vacuum arcs; 2D axially symmetric hydrodynamic model; Cu; Navier-Stokes equations; active splashing; cathode surface; convective heat transfer; copper cathode; crater formation; free surface; heat conduction equation; incompressible viscous fluid; inertial splashing; liquid-metal jets; molten metal behavior simulation; plasma pressure; time 30 ns; vacuum arc; Cathodes; Heating; Hydrodynamics; Mathematical model; Metals; Plasma temperature; Vacuum arcs;

机译：Navier-Stokes方程;阴极;铜;热传导;等离子射流;等离子压力;等离子模拟;真空弧;二维轴对称流体力学模型; Cu; Navier-Stokes方程;主动喷溅;阴极表面;对流传热;铜阴极;弹坑形成;自由表面;导热方程;不可压缩粘性流体;惯性飞溅;液态金属射流;熔融金属行为模拟;等离子压力;时间30 ns;真空弧;阴极;加热;水动力学;数学模型;金属;等离子温度;真空电弧;

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专利

1. Hydrodynamics of the Molten Metal During the Crater Formation on the Cathode Surface in a Vacuum Arc [J] . Mesyats Gennady /A/., Uimanov Igor V. Plasma Science, IEEE Transactions on . 2015,第8期

机译：真空弧中阴极表面火山口形成过程中熔融金属的流体动力学
2. Simulation of cathode spot crater formation and development on CuCr alloy in vacuum arc [J] . Wang Lijun, Zhang Xiao, Wang Yuan, Physics of plasmas . 2018,第4期

机译：真空弧中CUCR合金对阴极斑坑形成和开发的模拟
3. Cathode spot craters in pulse vacuum arc cleaning of a metal surface oxide layer [J] . Arai Y, Sugimoto M, Sugiyama S, Surface & Coatings Technology . 2008,第22a23期

机译：脉冲真空电弧清洁金属表面氧化物层中的阴极斑点坑
4. Simulation of the molten metal behavior during the crater formation on the cathode surface in a vacuum arc [C] . Mesyats G.A., Uimanov I.V. International Symposium on Discharges and Electrical Insulation in Vacuum . 2014

机译：真空弧中的阴极表面在阴极表面上的熔融金属行为模拟
5. Surface modification by filtered cathodic vacuum arc and nanomechanical properties of thin-film media, copper aluminum nickel shape-memory alloy, and surface-textured silicon. [D] . Zhang, Hanshen. 2009

机译：通过过滤的阴极真空电弧和薄膜介质，铜铝镍形状记忆合金和表面纹理化的硅的纳米机械性能进行表面改性。
6. Desorption from Hot Scandate Cathodes: Effects on Vacuum Device Interior Surfaces after Long-Term Operation [O] . Mujan N. Seif, T. John Balk, Matthew J. Beck 2020

机译：从热钪酸盐阴极解吸：长期运行后对真空装置内表面的影响
7. Numerical simulation of arc plasma and molten metal behavior in gas metal arc welding process [O] . Yosuke OGINO, Yoshinori HIRATA, Satoru ASAI 2018

机译：气体金属电弧焊接过程中电弧等离子体和熔融金属行为的数值模拟

Simulation of the molten metal behavior during the crater formation on the cathode surface in a vacuum arc

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