Microstructure and Thermal Shock Resistance of Zr7/8Ti1/8B2-20 vol% SiC Composites Synthesized by Mechanical Alloying and Spark Plasma Sintering

IF 1.5 4区 材料科学 Q3 MATERIALS SCIENCE, CERAMICS Transactions of the Indian Ceramic Society Pub Date : 2023-04-03 DOI:10.1080/0371750X.2023.2189621
Zixu Ji, N. Liao, Ya-wei Li, Tianbin Zhu, M. Nath, Zhihua Yang
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Abstract

ZrB2-based composites are promising ultra-high temperature materials, nonetheless their poor damage tolerance and low oxidation resistance hinder their practical applications. In the present work, Zr1–xTixB2-20 vol% SiC composites were prepared based on the mechanical alloying (MA) method and spark plasma sintering (SPS) technique. The results showed that solid solution of ZrTiB4 can be obtained by taking nano-sized ZrB2-TiB2 powders from the MA process. The Zr7/8Ti1/8B2-20 vol% SiC composites presented higher fracture toughness due to various toughening mechanisms, such as ‘crack deflection’ and ‘pull out’ induced by the finer solid solution particles and nano-sized graphite. Consequently, Zr7/8Ti1/8B2-20 vol% SiC composites possessed a residual strength of 180 MPa after thermal shock test with a temperature difference of 1000°C, while the conventional ZrB2-20 vol% SiC composites only remained at 81.4 MPa. GRAPHICAL ABSTRACT
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机械合金化和放电等离子烧结制备zr7 / 8ti1 / 8b2 - 20vol % SiC复合材料的显微组织和抗热震性能
zrb2基复合材料是一种极具发展前景的超高温材料,但其较差的损伤容限和较低的抗氧化性阻碍了其实际应用。采用机械合金化(MA)法和放电等离子烧结(SPS)技术制备了zr1 - xtixb2 - 20vol % SiC复合材料。结果表明:采用MA法制备纳米ZrB2-TiB2粉体,可获得ZrTiB4的固溶体;zr7 / 8ti1 / 8b2 - 20vol % SiC复合材料具有较高的断裂韧性,这是由于更细的固溶体颗粒和纳米石墨引起的“裂纹偏转”和“拉出”等多种增韧机制所致。结果表明,Zr7/8Ti1/8B2-20 vol% SiC复合材料经过1000℃的热冲击试验后,其残余强度可达180 MPa,而常规ZrB2-20 vol% SiC复合材料的残余强度仅为81.4 MPa。图形抽象
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来源期刊
Transactions of the Indian Ceramic Society
Transactions of the Indian Ceramic Society 工程技术-材料科学:硅酸盐
CiteScore
2.40
自引率
8.30%
发文量
12
审稿时长
2.3 months
期刊介绍: Transactions of the Indian Ceramic Society is a quarterly Journal devoted to current scientific research, technology and industry-related news on glass and ceramics. The Journal covers subjects such as the chemical, mechanical, optical, electronic and spectroscopic properties of glass and ceramics, and characterization of materials belonging to this family. The Editor invites original research papers, topical reviews, opinions and achievements, as well as industry profiles for publication. The contributions should be accompanied by abstracts, keywords and other details, as outlined in the Instructions for Authors section. News, views and other comments on activities of specific industries and organizations, and also analyses of industrial scenarios are also welcome.
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