混凝土浸水破坏特性的试验结果

Conference Record of the Twenty-Fifth International Power Modulator Symposium, 2002 and 2002 High-Voltage Workshop. Pub Date : 2002-06-30 DOI:10.1109/MODSYM.2002.1189503

W. Frey, R. Straessner, W. Edinger, H. Bluhm

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引用次数: 3

摘要

浸没在水中的介质固体的电脉冲破碎效率取决于从电极尖端穿过固体到接地极板的放电通道的特性。电压和电流测量表明，预击穿相位很大程度上取决于放电间隙内固体材料的排列。只有当电极间隙完全被固体材料填充时，才能观察到短的放电延迟时间和低的能量损失。在这种情况下，从测量中计算出的通道电阻显示高值。如果通道必须跨越中间的水隙，则放电延迟时间和能量损失增加。与通过固体材料的通道相比，水中的放电通道显示出较低的通道阻力，提供较差的能量转移到通道中。进一步的实验清楚地表明，固体物质中的气体包裹体在矿物放电发育中起着重要作用。

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Experimental results on the breakdown behaviour of concrete immersed in water

The efficiency of the electric impulse fragmentation of dielectric solids immersed in water is determined by the characteristics of the discharge channel propagating from the electrode tip through the solid to the grounded electrode plate. Voltage and current measurements indicate, that the pre-breakdown phase strongly depends on the arrangement of the solid material within the discharge gap. Short discharge delay times and low energy losses can only be observed, if the electrode gap is completely filled by solid material. In this case the channel resistance calculated from the measurements shows high values. If the channel has to bridge an intermediate water gap, the discharge delay times and the energy losses increase. Compared to a channel through solid material a discharge channel in water exhibits a low channel resistance, providing a poor energy transfer into the channel. Further experiments clearly indicate that gaseous inclusions in the solid material play an important role in discharge development in minerals.

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来源期刊

Conference Record of the Twenty-Fifth International Power Modulator Symposium, 2002 and 2002 High-Voltage Workshop.

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