High voltage SnO<sub>2</sub> varistors prepared from nanocrystalline powders

Mohammad Maleki Shahraki; Seyyed Ali Shojaee; Ali Nemati; Mohammad Ali Faghihi Sani

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High voltage SnO₂ varistors prepared from nanocrystalline powders

机译：由纳米晶体粉末制备的高压SnO _{2 压敏电阻}

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In this study, SnO₂-based varistors were prepared from mechanically activated nanocrystalline powders. Nanocrystalline powders were derived by subjecting the initial powders to intensive high-energy activation with different times and ball to powder ratio. The effect of activation parameters on the powder properties and sintering temperature, as well as microstructural, micro-electrical and macro-electrical properties of the final specimens was evaluated. Varistors derived from high-energy mechanical activation exhibit a higher density (98.3% relative density) and more refined microstructure upon sintering at 1,300 °C in comparison varistors prepared from conventional powders. Breakdown voltage and nonlinear coefficient were increased up to 24 kV/cm and 45 respectively.

机译：在这项研究中，SnO _{2 基压敏电阻是由机械活化的纳米晶体粉末制备的。纳米晶体粉末是通过对初始粉末进行不同时间和球粉比的强力高能活化而得到的。评估了活化参数对粉末性能和烧结温度以及最终试样的微观结构，微电和宏观电性能的影响。与由常规粉末制备的压敏电阻相比，源自高能机械活化的压敏电阻在1,300°C烧结时表现出更高的密度（相对密度98.3％）和更精细的微观结构。击穿电压和非线性系数分别增加到24 kV / cm和45。}

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《Journal of Materials Science: Materials in Electronics》 |2010年第2期|p.199-205|共7页
作者
Mohammad Maleki Shahraki; Seyyed Ali Shojaee; Ali Nemati; Mohammad Ali Faghihi Sani;
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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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1. High voltage SnO_2 varistors prepared from nanocrystalline powders [J] . Mohammad Maleki Shahraki, Seyyed Ali Shojaee, Ali Nemati, Journal of materials science . 2010,第2期

机译：由纳米晶体粉末制备的高压SnO_2压敏电阻
2. Ultra-high voltage SnO2 based varistors prepared at low temperature by two-step sintering [J] . Shahraki Mohammad Maleki, Chermahini Mehdi Delshad, Alipour Siamak, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2019,第期

机译：通过两步烧结在低温下制备的超高压SnO2压敏电阻
3. Fine-grained SnO_2 varistors prepared by microwave sintering for ultra-high voltage applications [J] . Shahraki Mohammad Maleki, Mahmoudi Pezhman, Abdollahi Mehdi, Materials Letters . 2018,第NOVa1期

机译：微波烧结制备的超细晶粒SnO_2压敏电阻，用于超高压应用
4. The Gas Sensing Potential of Nanocrystalline SnO2 and In2O3 Powders Prepared by Mechanical Milling [C] . Wiranto, Goib, Adiseno, . 2006

机译：机械研磨制备的纳米SnO2和In2O3纳米粉体的气敏电势
5. Varistors prepared from nanocrystalline powders obtained by high-energy ball milling. [D] . Darvishi Alamdari, Houshang. 2001

机译：由通过高能球磨获得的纳米晶体粉末制备的压敏电阻。
6. Synthesis Mechanism of Low-Voltage Praseodymium Oxide Doped Zinc Oxide Varistor Ceramics Prepared Through Modified Citrate Gel Coating [O] . Wan Rafizah Wan Abdullah, Azmi Zakaria, Mohd Sabri Mohd Ghazali 2012

机译：改性柠檬酸盐凝胶涂层制备低压掺Pra氧化锌压敏陶瓷的合成机理
7. The effect of processing conditions on varistors prepared from nanocrystalline ZnOElectronic supplementary information (ESI) available: 1) EDX associated with HRTEM of the nano-ZnO sample before and after coating with Sb, Bi and Co; 2) HRTEM and EDX associated with HRTEM of the varistor powder calcined at 300 �C after the addition of all the dopants and 3) EDX associated with FESEM of the core shell varistor sample sintered at 1050 �C. See http://www.rsc.org/suppdata/jm/b3/b306280e/ [O] . Pillai, Suresh C., Kelly, John M., McCormack, Declan E., 2003

机译：加工条件对根据可用的纳米晶体ZnOE电子补充信息制备的压敏电阻的影响：1）与Sb，Bi和Co涂覆前后的纳米ZnO样品的HRTEM相关的EDX； 2）添加所有掺杂剂后，在300°C下煅烧的压敏电阻粉末的HRTEM和EDTEM与HRTEM相关; 3）在1050°C烧结的核壳压敏电阻样品的FESEM与EDX相关。参见http://www.rsc.org/suppdata/jm/b3/b306280e/
8. Improvement of the stability of the process for synthesizing chemically prepared varistor powder. [R] . Lockwood, S. J., Thomas, E. V. 1993

机译：提高合成化学制备的压敏电阻粉末的方法的稳定性。

High voltage SnO2 varistors prepared from nanocrystalline powders

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High voltage SnO₂ varistors prepared from nanocrystalline powders