Suitable for welding ferrous metal workpiece with general AC electrode.
适合焊接黑色金属工件与一般交流电极。
Analysis on influence of ground electrode current in HVDC on AC power network.
直流输电系统接地极电流对交流电网的影响分析。
The zirconium-tungsten electrode boasts a fine performance in welding under the condition of AC.
锆钨电极在交流条件下,焊接性能良好。
The voltammetric behaviour of the system and its electrode reaction mechanism were studied by means of linear sweep and cyclic voltammetry, ac polarography and constant-potential coulometry, etc.
用线性扫描与循环伏安法、交流极谱和恒电位库仑法等手段研究体系的伏安行为及电极反应机理。
Weld penetration and wire melting speed of AC PMIG welding not only have relationship with welding current but also with electrode negative ratio.
交流脉冲MIG焊其焊缝熔深及焊丝熔化速度不仅与焊接电流有关,而且与负极性比率有关。
3-phase ac arc furnace electrode up-down control system is a complex multiple variable coupling control system.
三相交流电弧炉电极升降控制系统是一个复杂的非线性多变量耦合控制系统。
The relative AC impedance results also proved the deposition of platinum nanoparticles was beneficial for lower electrode body impedance and better surface activation treatment.
相关金微阵列电极电镀的交流电阻抗实验也说明纳米颗粒的沉积对于降低电极体阻抗及增大表面活化处理的作用。
The triggering discharges and the vacuum ultra-violet (VUV) radiation of the five-electrode alternating current plasma display panel (AC PDP) were investigated by fluid model simulations.
采用流体模型研究了一种五电极交流等离子体显示板(ACPDP)的单点触发放电过程及其真空紫外线(VUV)的辐射特性。
Thereinto, in range of 0-1.1 V, both AC in the positive and negative electrode assemble as a symmetry structure via parallel connection which offer more capacitance and less internal resistance.
在0-1.1V电压范围内通过与炭材料负极组成并联回路提高电容器电容值并降低体系内阻。
The influence of an organic complexing agent AD on electrodeposition of Mg-Ni alloy in organic bath on Cu electrode was studied by using cyclic voltammetry and AC impedance methods.
通过循环伏安法、交流阻抗法研究了一种有机络合剂对有机镀液中镁-镍合金在铜上共沉积的影响。
The voltage applied to said electrode is a pulsed voltage of plus and minus or an AC voltage of plus and minus.
施加给所述电极的电压是正负脉冲电压或正负ac电压。
The test results with the needle-plane electrode system under ac voltage at 77 K indicate that the fatigue break in UHMW-PE under mechanical forces during the electrical treeing is a critical factor.
结果表明,机械应力下疲劳强度的劣化是低温电树枝化的重要因素。超高分子量聚乙烯具有低温性能好。
The test results with the needle-plane electrode system under ac voltage at 77 K indicate that the fatigue break in UHMW-PE under mechanical forces during the electrical treeing is a critical factor.
结果表明,机械应力下疲劳强度的劣化是低温电树枝化的重要因素。超高分子量聚乙烯具有低温性能好。
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