Phase transformation and densification of cBN-Y2O3 nanocomposites by high pressure and high temperature

IF 6.2 2区材料科学 Q1 MATERIALS SCIENCE, CERAMICS

Journal of The European Ceramic Society Pub Date : 2025-08-23 DOI:10.1016/j.jeurceramsoc.2025.117770

Jiao Li , Piotr Klimczyk , Yuliia Rumiantseva , Yiquan Wu

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Abstract

Composite cBN- Y₂O₃ ceramics with a 30 vol% cBN content were successfully fabricated at sintering temperature ranging from 800 to 1600 °C under a high pressure of 7.2 GPa. The high sintering pressure was observed to prevent phase transformation of cubic BN phase, while simultaneously inducing the transformation from cubic Y₂O₃ to monoclinic Y₂O₃ phase. No significant change in the grain size of cBN within the composites was observed, attributed to the low sintering temperatures and short holding time. In contrast, the grain size of Y₂O₃ within the cBN- Y₂O₃ composite was reduced to less than 100 nm after sintering at 800 and 1000 °C. This observation indicates that the high pressure-induced phase transformation of Y₂O₃contributed to its grain refinement. As a result of the retained cubic BN phase and refined Y₂O₃ grains, the cBN- Y₂O₃ composite ceramics sintered for 60 s achieved a relative density of 94 % and a hardness of approximately 11 GPa. These results demonstrated that the high pressure and high temperature (HPHT) technique is a promising route in achieving fully dense cBN-Y₂O₃ composite ceramics with enhanced performance.

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cBN-Y2O3纳米复合材料高压高温相变致密化研究

在烧结温度为800 ~ 1600℃，压力为7.2 GPa的条件下，成功制备了cBN- Y2O3复合陶瓷，cBN含量为30 vol%。高烧结压力阻止了立方BN相的相变，同时促进了立方Y2O3向单斜Y2O3相的转变。由于烧结温度低，保温时间短，复合材料中cBN的晶粒尺寸没有明显变化。相比之下，cBN- Y2O3复合材料在800和1000 ℃烧结后，Y2O3的晶粒尺寸减小到小于100 nm。这表明高压诱导的相变有助于y2o3的晶粒细化。由于保留了立方BN相和细化的Y2O3晶粒，烧结60 s的cBN- Y2O3复合陶瓷的相对密度为94 %，硬度约为11 GPa。这些结果表明，高压高温（HPHT）技术是实现全致密cBN-Y2O3复合陶瓷的有效途径。

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来源期刊

Journal of The European Ceramic Society 工程技术-材料科学：硅酸盐

CiteScore

10.70

自引率

12.30%

发文量

863

审稿时长

35 days

期刊介绍： The Journal of the European Ceramic Society publishes the results of original research and reviews relating to ceramic materials. Papers of either an experimental or theoretical character will be welcomed on a fully international basis. The emphasis is on novel generic science concerning the relationships between processing, microstructure and properties of polycrystalline ceramics consolidated at high temperature. Papers may relate to any of the conventional categories of ceramic: structural, functional, traditional or composite. The central objective is to sustain a high standard of research quality by means of appropriate reviewing procedures.