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Preparation method of ultrahigh-temperature ceramic composite powder
According to the preparation process, the ZrB2-SiC ultrahigh-temperature composite ceramic is synthesized through combustion in a high-pressure argon atmosphere, the oxygen content of the composite ceramic can be controlled to be lower than 1%, the purity of synthesized powder is high, the particle size of the powder is small and ranges from 5 nm to 500 nm, and the high-temperature resistance and application durability of the material can be improved. Compared with the conventional in-situ synthesis method, the powder prepared by the method is generally in a micron level, and the oxygen content is inevitably increased in the reaction process because the reaction atmosphere is not concerned after the vacuum is pumped to a certain degree in the reaction process, so that the performance is influenced.
本发明公开了一种ZrB2‑SiC超高温复合陶瓷的制备工艺,通过在高压氩气气氛下燃烧合成ZrB2‑SiC超高温复合陶瓷,能够控制复合陶瓷的含氧量低于1%,合成粉体纯度高,粉体粒径小,为5‑500nm,有利于提高材料的耐高温性能以及应用的持久性;相比于常规原位合成法制备的粉体通常在微米级别,由于反应过程中通常抽真空达到一定程度后即不在关注反应气氛,必然会导致反应过程中氧含量的增加,从而影响性能。
Preparation method of ultrahigh-temperature ceramic composite powder
According to the preparation process, the ZrB2-SiC ultrahigh-temperature composite ceramic is synthesized through combustion in a high-pressure argon atmosphere, the oxygen content of the composite ceramic can be controlled to be lower than 1%, the purity of synthesized powder is high, the particle size of the powder is small and ranges from 5 nm to 500 nm, and the high-temperature resistance and application durability of the material can be improved. Compared with the conventional in-situ synthesis method, the powder prepared by the method is generally in a micron level, and the oxygen content is inevitably increased in the reaction process because the reaction atmosphere is not concerned after the vacuum is pumped to a certain degree in the reaction process, so that the performance is influenced.
本发明公开了一种ZrB2‑SiC超高温复合陶瓷的制备工艺,通过在高压氩气气氛下燃烧合成ZrB2‑SiC超高温复合陶瓷,能够控制复合陶瓷的含氧量低于1%,合成粉体纯度高,粉体粒径小,为5‑500nm,有利于提高材料的耐高温性能以及应用的持久性;相比于常规原位合成法制备的粉体通常在微米级别,由于反应过程中通常抽真空达到一定程度后即不在关注反应气氛,必然会导致反应过程中氧含量的增加,从而影响性能。
Preparation method of ultrahigh-temperature ceramic composite powder
一种超高温陶瓷复合粉体制备方法
YANG XIAO (author) / LI YONG (author) / ZHANG GUANNAN (author) / MENG QING (author) / YANG ZENGCHAO (author) / HE GANG (author) / SHUANG SHUANG (author) / CHEN YIXIANG (author) / LI JIANGTAO (author)
2022-04-22
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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