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High-entropy MAX-phase ceramic powder material and preparation method thereof
The invention belongs to the technical field of high-entropy MAX phase ceramics, and particularly relates to a preparation method of a six-component solid solution high-entropy MAX phase ceramic powder material. The simple and efficient preparation method of the high-entropy MAX phase ceramic material is invented by taking transition metal carbide as a solid solution raw material and changing a traditional solid solution mode, and is used for overcoming the defects that in a traditional synthesis method, a high-entropy MAX phase is difficult to synthesize, low in purity and many in impurities.
本发明属于高熵MAX相陶瓷技术领域,具体涉及一种六组元固溶的高熵MAX相陶瓷粉体材料的制备方法。本发明是利用过渡金属碳化物作为固溶原料,通过改变传统的固溶方式,发明一种简单、高效的高熵MAX相陶瓷材料的制备方法,用以解决传统合成方法中高熵MAX相难合成、纯度低、杂质多的缺点。
High-entropy MAX-phase ceramic powder material and preparation method thereof
The invention belongs to the technical field of high-entropy MAX phase ceramics, and particularly relates to a preparation method of a six-component solid solution high-entropy MAX phase ceramic powder material. The simple and efficient preparation method of the high-entropy MAX phase ceramic material is invented by taking transition metal carbide as a solid solution raw material and changing a traditional solid solution mode, and is used for overcoming the defects that in a traditional synthesis method, a high-entropy MAX phase is difficult to synthesize, low in purity and many in impurities.
本发明属于高熵MAX相陶瓷技术领域,具体涉及一种六组元固溶的高熵MAX相陶瓷粉体材料的制备方法。本发明是利用过渡金属碳化物作为固溶原料,通过改变传统的固溶方式,发明一种简单、高效的高熵MAX相陶瓷材料的制备方法,用以解决传统合成方法中高熵MAX相难合成、纯度低、杂质多的缺点。
High-entropy MAX-phase ceramic powder material and preparation method thereof
一种高熵MAX相陶瓷粉体材料及其制备方法
JI JUN (author) / LI MINGLING (author) / GAO HUAMIN (author)
2024-02-06
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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