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Transition metal high-entropy ceramic oxide composite material powder and preparation method thereof
The invention relates to the technical field of high-entropy ceramics, and provides transition metal high-entropy ceramic oxide composite material powder and a preparation method thereof. MgO powder, TiO2 powder, NiO powder, CuO powder and ZnO powder are mixed, then the obtained mixed powder is subjected to microwave sintering, and transition metal high-entropy ceramic oxide composite material powder is obtained. The (MgTiNiCuZn) O high-entropy ceramic is synthesized through microwave sintering, the operation method is simple, the sintering time is short, no pollution is generated, the national policy of energy conservation and environmental protection is met, and the application prospect is wide; and the (MgTiNiCuZn) O high-entropy ceramic oxide composite material powder prepared by the method belongs to a brand new material, enriches the material system of the high-entropy ceramic oxide, and provides a new direction for the research of high-entropy ceramics.
本发明涉及高熵陶瓷技术领域,提供了一种过渡金属高熵陶瓷氧化物复合材料粉体及其制备方法。本发明将MgO粉体、TiO2粉体、NiO粉体、CuO粉体和ZnO粉体混合,然后将所得混合粉体进行微波烧结,得到过渡金属高熵陶瓷氧化物复合材料粉体。本发明通过微波烧结合成(MgTiNiCuZn)O高熵陶瓷,操作方法简单,烧结时间短,且不会产生污染,符合国家节能环保的政策方针,具有广阔的应用前景;并且本发明制备的(MgTiNiCuZn)O高熵陶瓷氧化物复合材料粉体属于一种全新的材料,丰富了高熵陶瓷氧化物的材料体系,为高熵陶瓷的研究提供了新的方向。
Transition metal high-entropy ceramic oxide composite material powder and preparation method thereof
The invention relates to the technical field of high-entropy ceramics, and provides transition metal high-entropy ceramic oxide composite material powder and a preparation method thereof. MgO powder, TiO2 powder, NiO powder, CuO powder and ZnO powder are mixed, then the obtained mixed powder is subjected to microwave sintering, and transition metal high-entropy ceramic oxide composite material powder is obtained. The (MgTiNiCuZn) O high-entropy ceramic is synthesized through microwave sintering, the operation method is simple, the sintering time is short, no pollution is generated, the national policy of energy conservation and environmental protection is met, and the application prospect is wide; and the (MgTiNiCuZn) O high-entropy ceramic oxide composite material powder prepared by the method belongs to a brand new material, enriches the material system of the high-entropy ceramic oxide, and provides a new direction for the research of high-entropy ceramics.
本发明涉及高熵陶瓷技术领域,提供了一种过渡金属高熵陶瓷氧化物复合材料粉体及其制备方法。本发明将MgO粉体、TiO2粉体、NiO粉体、CuO粉体和ZnO粉体混合,然后将所得混合粉体进行微波烧结,得到过渡金属高熵陶瓷氧化物复合材料粉体。本发明通过微波烧结合成(MgTiNiCuZn)O高熵陶瓷,操作方法简单,烧结时间短,且不会产生污染,符合国家节能环保的政策方针,具有广阔的应用前景;并且本发明制备的(MgTiNiCuZn)O高熵陶瓷氧化物复合材料粉体属于一种全新的材料,丰富了高熵陶瓷氧化物的材料体系,为高熵陶瓷的研究提供了新的方向。
Transition metal high-entropy ceramic oxide composite material powder and preparation method thereof
一种过渡金属高熵陶瓷氧化物复合材料粉体及其制备方法
GUAN LI (Autor:in) / ZHANG RUI (Autor:in) / WANG YANKE (Autor:in) / WANG HAILONG (Autor:in) / LI MINGLIANG (Autor:in) / SONG BOZHEN (Autor:in) / LIU HAOJIA (Autor:in) / GUO XIAOQIN (Autor:in) / WANG XULEI (Autor:in) / GAO QIANCHENG (Autor:in)
07.04.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
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