应用该模型进行了火花半径、接地体冲击地电位分布、电流波形及冲击接地电阻的计算。
Computation of spark discharge radius, impulse grounding potential distribution, current waveform and impulse grounding resistance is conducted by using this model.
发现火花放电不仅改变氧化膜的表面形貌结构,还能够促进氧化膜表面硅、氧元素的富积,并使火花放电区域的表面电位正移。
Under the spark discharge treatment, the structure of the anodic layer was significantly changed, the enrichment of silicon and oxygen was enhanced, and the surface potential was ennobled.
在电火花加工(EDM)过程中,在线检测放电位置具有十分重要的意义。
It is essential for on line detecting the spark locations in electrical discharge machine (EDM).
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