Titanium dioxide ceramics (TiO/sub 2/) are candidate materials for high energy density pulsed power devices. Experiments to quantify the dielectric strength of TiO/sub 2/ have been performed on a limited number of unoptimized samples. A high voltage test set was constructed to test the TiO/sub 2/. All samples had a relative dielectric constant of 100, all samples were of 3 mm nominal thickness, and all tests were performed in water dielectric to reduce the effect of the triple point field enhancement at the electrode edge. Both single layer and laminated samples were tested and the breakdown field strengths were recorded. Voltage risetimes varied slightly around 400 ns depending upon the size of the test sample area. Areas varied from >0.2 cm/sup 2/ to <100 cm/sup 2/. Both single layer and laminated material showed a strong area effect where the dielectric strength dropped off as area to the -0.17 and -0.1 power respectively. Effective areas of the electrodes were calculated using a field solver program. Breakdown field strengths varied from 469 kV/cm to 124 kV/cm in the single layer specimens, and from 556 kV/cm to 261 kV/cm in the laminates over an increasing area range. Energy density calculations for the material show that at areas of approximately 100 cm/sup 2/ the laminates can store nearly 3 times more energy than single layers.
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机译:二氧化钛陶瓷(TiO / sub 2 /)是用于高能量密度脉冲功率设备的候选材料。在有限数量的未优化样品上进行了量化TiO / sub 2 /介电强度的实验。构建高压测试仪以测试TiO / sub 2 /。所有样品的相对介电常数均为100,所有样品的标称厚度均为3 mm,并且所有测试均在水电介质中进行,以减少电极边缘的三点电场增强效应。测试了单层和层压样品,并记录了击穿场强。电压上升时间大约在400 ns左右变化,具体取决于测试样品区域的大小。面积从> 0.2 cm / sup 2 /到<100 cm / sup 2 /。单层和层压材料均显示出强的面积效应,其中介电强度随面积分别下降至-0.17和-0.1功率。使用场求解器程序计算电极的有效面积。在增加的面积范围内,单层样品的击穿场强从469 kV / cm到124 kV / cm不等,层压板的击穿场强从556 kV / cm到261 kV / cm不等。该材料的能量密度计算表明,在大约100 cm / sup 2 /的面积下,层压板可存储的能量比单层的能量高出将近3倍。
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