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PZT 52/48 ferroelectric ceramics: Depolarization and electric breakdown under longitudinal explosive shock

机译：PZT 52/48铁电陶瓷：纵向爆炸冲击下的去极化和电击穿

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Electric breakdown within longitudinally explosively shocked Pb(Zr0.52Ti0.48)O3 (PZT 52/48) ferroelectric ceramics was investigated. It was experimentally demonstrated that electric breakdown causes significant energy losses in miniature autonomous generators based on shock depolarization of poled ferroelectric elements. We found that a dependence of breakdown field strength, Eg, of shocked ferroelectric, on the thickness of the element, d, is described by the Eg(d) = γ·d-w law which describes breakdown measurements for a variety of dielectric materials at ambient conditions. The analysis of experimental results showed that the tunnel effect is a dominant mechanism of injection of prime electrons in the shocked ferroelectrics.

机译：研究了纵向爆炸冲击的Pb（Zr0.52Ti0.48）O3（PZT 52/48）铁电陶瓷内部的电击穿。实验证明，基于极化铁电元件的激振去极化，电击穿会导致微型自主发电机中的大量能量损失。我们发现，冲击铁电击穿电场强度Eg对元素厚度d的依赖性由Eg（d）=γ·dw律描述，该律描述了各种介电材料在环境下的击穿测量条件。实验结果分析表明，隧道效应是冲击铁电体中注入主电子的主要机理。

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《Pulsed Power Conference (PPC), 2011 IEEE》|2011年|p.437- 440|共4页
会议地点 Chicago IL(US)
作者
Shkuratov S.I.;
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作者单位

Loki Inc., Rolla, MO, USA;

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原文格式 PDF
正文语种 eng
中图分类脉冲技术、脉冲电路;
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1. PZT 52/48 Depolarization: Quasi-Static Thermal Heating Versus Longitudinal Explosive Shock [J] . Shkuratov S. I., Baird J., Antipov V. G., Plasma Science, IEEE Transactions on . 2010,第8期

机译：PZT 52/48去极化：准静态加热与纵向爆炸冲击
2. Miniature 100-kV Explosive-Driven Prime Power Sources Based on Transverse Shock-Wave Depolarization of PZT 95/5 Ferroelectric Ceramics [J] . Shkuratov S. I., Baird J., Talantsev E. F., Plasma Science, IEEE Transactions on . 2012,第10期

机译：基于PZT 95/5铁电陶瓷横向冲击波去极化的微型100 kV爆炸驱动原电源
3. Depolarization and Electrical Response of Porous PZT 95/5 Ferroelectric Ceramics under Shock Wave Compression [J] . WANG Zhi-Zhu, JIANG Yi-Xuan, ZHANG Pan, 中国物理快报：英文版 . 2014,第007期

机译：冲击波压缩下多孔PZT 95/5铁电陶瓷的去极化和电响应
4. PZT 52/48 ferroelectric ceramics: Depolarization and electric breakdown under longitudinal explosive shock [C] . Shkuratov S.I. IEEE Pulsed Power Conference . 2011

机译：PZT 52/48铁电陶瓷：纵向爆炸下的去极化和电击
5. The relative contribution of ferroelastic and ferroelectric texture to the character of a hard PZT ceramic. [D] . Key, Thomas Stallings. 2007

机译：铁弹性和铁电织构对硬质PZT陶瓷性能的相对贡献。
6. Advancing Dielectric and Ferroelectric Properties of Piezoelectric Polymers by Combining Graphene and Ferroelectric Ceramic Additives for Energy Storage Applications [O] . Saira Ishaq, Farah Kanwal, Shahid Atiq, 2018

机译：通过结合石墨烯和铁电陶瓷添加剂在储能应用中提高压电聚合物的介电和铁电性能
7. Plane Shock Generator Explosive Lens: Shock characterization of 4340 and PH13-8Mo steels, C360 brass and PZT 65/35 ferro-electric ceramic [O] . L.J. Weirick 1994

机译：平面冲击发电机爆炸镜：4340和PH13-8MO钢的冲击特征，C360黄铜和PZT 65/35铁电陶瓷
8. Pulsed Charging of Capacitor Bank by Compact Explosive-Driven High-Voltage Primary Power Source Based on Longitudinal Shock Wave Depolarization of Ferroelectric Ceramics. [R] . Shkuratov, S. I., Baird, J., Talantsev, E. F., 2005

机译：基于铁电陶瓷纵向冲击波去极化的紧凑型爆炸驱动高压一次电源对电容器组的脉冲充电。

PZT 52/48 ferroelectric ceramics: Depolarization and electric breakdown under longitudinal explosive shock

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