Modeling of graphite electrode failure in high power spark gaps

M. Wofford, M. Baker, M. Kristiansen
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Abstract

The purpose of this research is to determine the mechanism for the abrupt failure of graphite electrodes in high power spark gaps. The occurrence of damage was initially linked to a high current rate of rise (di/dt) of the system, on the order of 10/sup 11/ A/s. Under these conditions, no electrode fracture occurred. Diagnostics and theoretical modeling are provided and testing is to continue. An indirect technique is used to measure the magnitude and duration of dynamic stress on graphite electrodes during switch operation. Different operating conditions (i.e. different currents, energies) are used to obtain relative measurements. A preliminary model of the impact force on the electrodes as a function of circuit parameters is presented, possibly with a model of the force interaction and propagation through the electrodes. The experimental results are compared with the model. The ultimate goal is to pinpoint the cause of electrode rupture and improve the performance by altering external circuit, mechanical mounting or electrode geometry.
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高功率火花隙中石墨电极失效的建模
本研究的目的是确定高功率火花间隙中石墨电极突然失效的机理。损坏的发生最初与系统的高电流上升速率(di/dt)有关,大约为10/sup / 11/ a /s。在此条件下,电极未发生断裂。提供了诊断和理论建模,并将继续进行测试。采用间接技术测量了开关工作过程中石墨电极上的动应力大小和持续时间。使用不同的工作条件(即不同的电流、能量)来获得相对的测量值。提出了电极上的撞击力随电路参数变化的初步模型,并可能建立了撞击力在电极上相互作用和传播的模型。实验结果与模型进行了比较。最终目标是查明电极破裂的原因,并通过改变外部电路、机械安装或电极几何形状来提高性能。
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