Investigations have been carried out on right cylindrical Teflon spacers in vacuum under dc stress to study the effect of cathode geometry on surface charging and flashover. Three cathode support arrangements were used. Type 1 involved a recess in the cathode into which the spacer was located, type 2 was a simple flat plate cathode, while type 3 had a raised insert on the cathode surface over which the spacer was located. In all cases the surface charge density and distribution is primarily dependent upon the magnitude of the electric stress. Using the type 1 arrangement inception for charge deposition was always /spl sim/10 kV even when the spacer had been subjected to repeated flashovers. At applied voltages higher than this the density of the charge, which was fairly uniformly distributed around the surface, was more or less proportional to the applied voltage. For the type 2 and type 3 arrangements, a distinct, uniformly distributed negative charge of /spl les/20 /spl mu/C/m/sup 2/ was always detected at low values of applied stress and at a fairly well-defined transition voltage this gave way to a distribution which was substantially uniform in the case of type 2 but quite filamentary in type 3, and both involved the deposition of positive charge.
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机译:已经在真空中在直流应力下对右圆柱形Teflon垫片进行了研究,以研究阴极几何形状对表面电荷和飞弧的影响。使用了三个阴极支撑装置。 1型涉及在隔板上位于阴极中的凹槽,2型是简单的平板阴极,而3型在位于隔板上的阴极表面上具有凸起的插入物。在所有情况下,表面电荷密度和分布主要取决于电应力的大小。使用类型1的布置,电荷沉积的起始始终始终为/ spl sim / 10 kV,即使隔离物已经经历了反复的闪络。在高于此的施加电压下,电荷密度(在表面周围相当均匀地分布)或多或少与施加电压成比例。对于类型2和类型3的布置,总是在低施加应力值和相当明确定义的跃迁下检测到/ spl les / 20 / spl mu / C / m / sup 2 /的明显均匀分布的负电荷在2型的情况下,这种电压被分配到基本上均匀的分布,而在3型的情况下却呈丝状分布,并且两者都涉及正电荷的沉积。
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