Carbothermal synthesis of ultra-fine zirconium carbide powders using inorganic precursors via sol–gel method

Yongjie Yan; Zhengren Huang; Xuejian Liu; Dongliang Jiang

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Carbothermal synthesis of ultra-fine zirconium carbide powders using inorganic precursors via sol–gel method

机译：无机前驱体溶胶-凝胶法碳热合成超细碳化锆粉

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Ultra-fine zirconium carbide (ZrC) powders have been synthesized by carbothermal reduction reactions using inorganic precursors zirconium oxychloride (ZrOCl2 · 8H2O) as sources of zirconium and phenolic resin as the carbon source. The reactions were substantially completed at relatively lower temperatures (～1400 °C/1 h) and the synthesized powders had a small average crystallite size (<200 nm) and a large specific area (54 m2/g). The oxygen content of the powder synthesized at 1400 °C/1 h was less than 1.0 wt%. The thermodynamic change process in the ZrO2–C system and the synthesis mechanism were studied.

机译：采用无机前驱体氯氧化锆（ZrOCl2 ·8H2 ）作为锆源和酚醛树脂作为碳源，通过碳热还原反应合成了超细碳化锆（ZrC）粉末。反应在较低的温度（〜1400°C / 1 h）下基本完成，合成的粉末平均晶粒尺寸小（<200 nm），比表面积大（54 m2 / g）。在1400℃/ 1h下合成的粉末的氧含量小于1.0wt％。研究了ZrO2 系统中的热力学变化过程及其合成机理。

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来源
《Journal of Sol-Gel Science and Technology》 |2007年第1期|81-85|共5页
作者
Yongjie Yan; Zhengren Huang; Xuejian Liu; Dongliang Jiang;
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作者单位

Shanghai Institute of Ceramics Chinese Academy of Sciences 1295 Dingxi Road Shanghai 200050 P.R. China;

Shanghai Institute of Ceramics Chinese Academy of Sciences 1295 Dingxi Road Shanghai 200050 P.R. China;

Shanghai Institute of Ceramics Chinese Academy of Sciences 1295 Dingxi Road Shanghai 200050 P.R. China;

Shanghai Institute of Ceramics Chinese Academy of Sciences 1295 Dingxi Road Shanghai 200050 P.R. China;

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正文语种 eng
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关键词
Zirconium carbide; Sol–gel; Ultra-fine; Carbothermal reduction;

机译：碳化锆;溶胶凝胶;超细;碳热还原;

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专利

1. Carbothermal synthesis of ultra-fine zirconium carbide powders using inorganic precursors via sol-gel method [J] . Yongjie Yan, Zhengren Huang, Xuejian Liu Journal of Sol-Gel Science and Technology . 2007,第1期

机译：无机前驱体溶胶-凝胶法碳热合成超细碳化锆粉
2. Carbothermal Preparation of Ultra-fine TiB_2 Powders Using Solution-Derived Precursors via Sol-gel Method [J] . Yongjie Yan, Zhengren Huang, Shaoming Dong, Key Engineering Materials . 2007,第Pt2期

机译：溶液衍生前体的溶胶-凝胶法碳热制备超细TiB_2粉末
3. Carbothermal reduction synthesis of nanocrystalline zirconium carbide and hafnium carbide powders using solution-derived precursors [J] . Sacks MD, Wang CA, Yang ZH, Journal of Materials Science . 2004,第19期

机译：溶液衍生前体的碳热还原法合成纳米晶碳化锆和碳化ha粉末
4. Carbothermal Preparation of Ultra-fine TiB{sub}2 Powders Using Solution-Derived Precursors via Sol-gel Method [C] . Yongjie Yan, Zhengren Huang, Shaoming Dong, China International Conference on High-Performance Ceramics . 2007

机译：通过溶胶 - 凝胶法使用溶液衍生的前体的超细Tib {Sub} 2粉末的碳水制备
5. Contribution to the study of the sol-gel method for the preparation of perovskites: Synthesis and characterization of lead(zirconium titanium) oxygen and (lanthanum strontium)cobalt oxygen (Dutch text). [D] . Nouwen, Ria. 1999

机译：溶胶-凝胶法制备钙钛矿的方法的研究成果：铅（锆钛）氧和（镧锶）钴氧的合成和表征（荷兰文）。
6. Modification of Different Zirconium Propoxide Precursors by Diethanolamine. Is There a Shelf Stability Issue for Sol-Gel Applications? [O] . Gerald I. Spijksma, Dave H. A. Blank, Henny J. M. Bouwmeester, 2009

机译：二乙醇胺对不同丙氧化锆前体的改性。 Sol-Gel应用是否存在货架稳定性问题？
7. Facile Synthesis of Highly Dispersed Ultra-fine ZrC Powders by Carbothermal Reduction Method Using Nanosized ZrO2and Nanosized Graphite Powder Mixtures [O] . Wha-Jun Lee, Sung-Soo Ryu 2013

机译：通过纳米氧化ZrO2和纳米型石墨粉末混合物通过碳热还原法容易合成高度分散的超细ZRC粉末

Carbothermal synthesis of ultra-fine zirconium carbide powders using inorganic precursors via sol–gel method

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