烧结温度和Y2O3含量对Sialon-TiB2-AlN-cBN复合材料综合性能的影响

IF 1.8 4区材料科学 Q2 MATERIALS SCIENCE, CERAMICS

International Journal of Applied Ceramic Technology Pub Date : 2025-01-24 DOI:10.1111/ijac.15042

Shenglin Zhong, Yi Wu, Xixi Hu

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引用次数: 0

摘要

本研究重点设计热膨胀系数与立方氮化硼（cBN）相当的sialon - tib2 -AlN复合陶瓷，在超高压（5.5 GPa）和高温（1400℃- 1600℃）条件下，作为粘结剂原位合成PcBN复合材料。系统地研究了烧结温度和Y₂O₃含量对PcBN复合材料相组成、显微组织和力学性能的影响。结果表明，不同烧结温度下复合材料的相组成是相同的。适度添加Y₂O₃可以增强系统内Sialon的形成，并促进其长径比的增加。当Y₂O₃含量为2%时，长柱状Sialon和针状（或板状）TiB₂共存，Sialon的长径比为4:1 ~ 5:1。在这种组合下，界面键合效果最佳。在此条件下，聚晶立方氮化硼（PcBN）复合材料的综合性能最佳，抗弯强度为990.72 MPa，硬度为28.49 GPa，断裂韧性为7.8 MPa·m¹/2，最大磨损比为1602。

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Effect of sintering temperature and Y2O3 content on the comprehensive performance of Sialon‒TiB2‒AlN‒cBN composites

This study focuses on the design of Sialon‒TiB₂‒AlN composite ceramics with thermal expansion coefficients matched to that of cubic boron nitride (cBN), used as binders to synthesize PcBN composites in situ under conditions of ultra-high pressure (5.5 GPa) and high temperature (1400°C‒1600°C). The effects of sintering temperature and Y₂O₃ content on the phase composition, microstructure, and mechanical properties of PcBN composites were systematically investigated. The results show that the phase compositions of the composites with different sintering temperatures are the same. A moderate addition of Y₂O₃ enhances the formation of Sialon within the system and promotes an increase in its aspect ratio. When the Y₂O₃ content is 2%, both long columnar Sialon and needle-like (or plate-like) TiB₂ coexist, with the aspect ratio of Sialon ranging from 4:1 to 5:1. At this composition, the interface bonding is optimal. Under these conditions, the Polycrystalline cubic boron nitride (PcBN) composite exhibits the best overall performance, achieving flexural strength of 990.72 MPa, hardness of 28.49 GPa, fracture toughness of 7.8 MPa·m¹/², and a maximum wear ratio of 1602.

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来源期刊

International Journal of Applied Ceramic Technology 工程技术-材料科学：硅酸盐

CiteScore

3.90

自引率

9.50%

发文量

280

审稿时长

4.5 months

期刊介绍： The International Journal of Applied Ceramic Technology publishes cutting edge applied research and development work focused on commercialization of engineered ceramics, products and processes. The publication also explores the barriers to commercialization, design and testing, environmental health issues, international standardization activities, databases, and cost models. Designed to get high quality information to end-users quickly, the peer process is led by an editorial board of experts from industry, government, and universities. Each issue focuses on a high-interest, high-impact topic plus includes a range of papers detailing applications of ceramics. Papers on all aspects of applied ceramics are welcome including those in the following areas: Nanotechnology applications; Ceramic Armor; Ceramic and Technology for Energy Applications (e.g., Fuel Cells, Batteries, Solar, Thermoelectric, and HT Superconductors); Ceramic Matrix Composites; Functional Materials; Thermal and Environmental Barrier Coatings; Bioceramic Applications; Green Manufacturing; Ceramic Processing; Glass Technology; Fiber optics; Ceramics in Environmental Applications; Ceramics in Electronic, Photonic and Magnetic Applications;