ZrB2 powders prepared by boro/carbothermal reduction of ZrO2: The effects of carbon source and reaction atmosphere

Hui-Yu Qiu; Wei-Ming Guo; Ji Zou

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ZrB2 powders prepared by boro/carbothermal reduction of ZrO2: The effects of carbon source and reaction atmosphere

机译：硼/碳热还原ZrO2制备ZrB2粉末：碳源和反应气氛的影响

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ZrB2 powders with different particle size or different morphologies have been synthesized by boro/carbothermal reduction (BCTR) method using ZrO2, B4C and graphite or carbon black as starting materials in this work. Results revealed that the carbon black with fine particles decreased the synthesis temperature and resulted in a finer ZrB2 powder compared with graphite in vacuum. However, the synthesis temperature was almost the same for both the carbon black and graphite cases if the reaction took place in argon atmosphere. Furthermore, vacuum atmosphere led to the formation of rod-like ZrB2 powder, whereas argon atmosphere resulted in quasi-spherical ZrB2 powder. Thermodynamic calculation was conducted and possible mechanisms were discussed for understanding the above phenomena.

机译：通过硼/碳热还原（BCTR）方法，以ZrO2，B4C和石墨或炭黑为原料，合成了具有不同粒径或形貌的ZrB2粉末。结果表明，与真空中的石墨相比，具有细颗粒的炭黑降低了合成温度，并导致ZrB2粉末更细。但是，如果反应在氩气中进行，则炭黑和石墨的合成温度几乎相同。此外，真空气氛导致形成棒状ZrB2粉末，而氩气氛导致准球形ZrB2粉末。进行了热力学计算，并讨论了理解上述现象的可能机理。

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来源
《Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems》 |2012年第null期|共5页
作者
Hui-Yu Qiu; Wei-Ming Guo; Ji Zou;
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正文语种 eng
中图分类粉末技术;
关键词
ZrB2 powder; Synthesis; Boro/carbothermal reduction; Microstructure;

机译：ZrB2粉末合成硼/碳热还原显微组织;

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1. ZrB2 powders prepared by boro/carbothermal reduction of ZrO2: The effects of carbon source and reaction atmosphere [J] . Hui-Yu Qiu, Wei-Ming Guo, Ji Zou Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems . 2012,第Null期

机译：硼/碳热还原ZrO2制备ZrB2粉末：碳源和反应气氛的影响
2. Effect of ZrO2 morphology on the ablation resistance of carbon/carbon composites containing ZrC prepared by the carbothermal reduction reaction [J] . Li Cuiyan, Li Kezhi, Ouyang Haibo, Corrosion science . 2016,第JANa期

机译：ZrO2形态对碳热还原反应制备含ZrC碳/碳复合材料耐烧蚀性的影响
3. Effects of carbon source type and dosage on the synthesis of Al2O3–AlN composite powders by the carbothermal reduction–nitridation method [J] . Jilin HU, Qizhong HUANG, Xin YANG, Journal of the Ceramic Society of Japan . 2018,第2期

机译：碳源类型和剂量对碳热还原-氮化法合成Al2O3-AlN复合粉的影响
4. ROD-LIKE β-SIALON POWDER PREPARED BY A NEW N_2-ASSISTED CARBOTHERMAL REDUCTION OF CARBON AND ALUMINUM NANOCASTED MESOPOROUS SILICA [C] . Tongping Xiu, Qian Liu, Minghui Wang, Ceramic materials and components for energy and environmental applications . 2010

机译：N_2辅助碳热还原铝和纳米级介孔二氧化硅制备的棒状β-Sialon粉末
5. Synthesis of ultrafine aluminum nitride powder using a new carbothermal reduction process. [D] . Chiang, Chunyen. 1993

机译：使用新的碳热还原工艺合成超细氮化铝粉末。
6. Highly Efficient and Low-Temperature Preparation of Plate-Like ZrB2-SiC Powders by a Molten-Salt and Microwave-Modified Boro/Carbothermal Reduction Method [O] . Yuan Zeng, Feng Liang, Jianghao Liu, 2018

机译：熔融盐和微波改性硼/碳热还原法高效低温制备平板状ZrB2-SiC粉
7. Reaction Processes and Characterization of ZrB2Powder Prepared by Boro/Carbothermal Reduction of ZrO2in Vacuum [O] . Wei-Ming Guo, Guo-Jun Zhang 2009

机译：ZrO2蛋白真空制备的ZrB2Powder的反应过程和表征
8. Preparation of Powders by Carbothermal Reduction of Aluminum Oxide and Their Consolidation into Dense Polycrystalline Bodies [R] . Ish-Shalom, M. 1986

机译：碳热还原氧化铝制备粉末及其在致密多晶体中的固结

ZrB2 powders prepared by boro/carbothermal reduction of ZrO2: The effects of carbon source and reaction atmosphere

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