Novel nanostructure composite dielectric with high insulation performance: Silica-based nanometer-sized porous composite insulating paper reinforced by ceramic fibers

Sima Wenxia; He Jiahui; Sun Potao; Yang Ming; Yin Ze; Li Chuang

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Novel nanostructure composite dielectric with high insulation performance: Silica-based nanometer-sized porous composite insulating paper reinforced by ceramic fibers

机译：具有高绝缘性能的新型纳米结构复合电介质：陶瓷纤维加固二氧化硅基纳米型多孔复合绝缘纸

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Nano-dielectrics, which were discovered more than 20 years ago, were once considered as promising insulators. Adding or hybridizing inorganic oxides into polymer matrices inevitably results in poor compatibility between multiphase materials and thus results in limited breakdown strength improvement (generally lower than 20%). Therefore, we bypassed the traditional nano-doping method and proposed the direct construction of matrix materials on nanostructures, that is, a ceramic fiber-porous silica composite insulating paper. The breakdown strength of prepared dielectric was remarkably improved by 120.5%. To the best of our knowledge, such a high improvement in electrical performance has not been reported in previous studies. (C) 2020 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

机译：在20多年前发现的纳米电介质曾被认为是有前途的绝缘体。将无机氧化物添加或杂交成聚合物基质中不可避免地导致多相材料的相容性差，因此导致有限的折射强度改善（通常低于20％）。因此，我们绕过了传统的纳米掺杂方法，并提出了纳米结构上的基质材料的直接构建，即陶瓷纤维多孔二氧化硅复合绝缘纸。制备的电介质的击穿强度显着提高了120.5％。据我们所知，在以前的研究中尚未报告这种高改善电气性能。（c）2020 Acta Materialia Inc. eSeryvier有限公司发布所有权利。

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来源
《Scripta materialia》 |2020年第2020期|共4页
作者
Sima Wenxia; He Jiahui; Sun Potao; Yang Ming; Yin Ze; Li Chuang;
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作者单位

Chongqing Univ State Key Lab Power Transmiss Equipment &

Syst Se Chongqing 400030 Peoples R China;

Chongqing Univ State Key Lab Power Transmiss Equipment &

Syst Se Chongqing 400030 Peoples R China;

Chongqing Univ State Key Lab Power Transmiss Equipment &

Syst Se Chongqing 400030 Peoples R China;

Chongqing Univ State Key Lab Power Transmiss Equipment &

Syst Se Chongqing 400030 Peoples R China;

Chongqing Univ State Key Lab Power Transmiss Equipment &

Syst Se Chongqing 400030 Peoples R China;

Chongqing Univ State Key Lab Power Transmiss Equipment &

Syst Se Chongqing 400030 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类冶金工业;
关键词
Nanostructure; Ceramic matrix composites (CMC); Dielectric; Electrical properties;

机译：纳米结构;陶瓷基质复合材料（CMC）;电介质;电性能;

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专利

1. Novel nanostructure composite dielectric with high insulation performance: Silica-based nanometer-sized porous composite insulating paper reinforced by ceramic fibers [J] . Sima Wenxia, He Jiahui, Sun Potao, Scripta materialia . 2020,第期

机译：具有高绝缘性能的新型纳米结构复合电介质：陶瓷纤维加固二氧化硅基纳米型多孔复合绝缘纸
2. Investigation of the Damping Properties and the Sound Insulation Performances of Fiber-reinforced Composites [J] . Chen Rui, Yao Manwen, Yang Pengfei, Ferroelectrics . 2014,第470期

机译：纤维增强复合材料的阻尼性能和隔音性能研究
3. Cantilever creep method for testing ceramic composites and a case study for chemically bonded phosphate ceramic composites reinforced with glass, carbon and basalt fibers, including both experiments and simulations [J] . Journal of Composite Materials . 2020,第20期

机译：用于测试陶瓷复合材料的悬臂蠕变方法以及用玻璃，碳和玄武岩纤维增强化学键合磷酸盐陶瓷复合材料的案例研究，包括实验和模拟
4. Carbon Fiber Reinforced Phosphate Porous Ceramic Composites [C] . Ping Zhai, Xiaofeng Duan, Daqian Chen, CICC-7;China international conference on high-performance ceramics . 2012

机译：碳纤维增强磷酸盐多孔陶瓷复合材料
5. Mechanics and durability of fiber-reinforced porous ceramic composites. [D] . Huang, Xinyu. 2002

机译：纤维增强多孔陶瓷复合材料的力学性能和耐久性。
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机译：乙酰化杨木纤维增强的酚醛树脂泡沫复合材料具有较高的机械性能较低的粉化比良好的隔热和阻燃性能
7. Ceramic / inorganic-organic nano-hybrid composites for thermally stable insulation of electrical wires. Part II: Properties of the composite insulated wires [O] . Yong-Xin Pang, Simon N. B. Hodgson 2020

机译：陶瓷/无机 - 有机纳米混合复合材料，用于电线的热稳定绝缘。第二部分：复合绝缘电线的性质
8. Interphase for ceramic matrix composites reinforced by non-oxide ceramic fibers [R] . 2008

机译：非氧化物陶瓷纤维增强陶瓷基复合材料的界面相

Novel nanostructure composite dielectric with high insulation performance: Silica-based nanometer-sized porous composite insulating paper reinforced by ceramic fibers

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