Thermal Shock Resistance of, #beta#'-Sialon-BN Composites Prepared by Pressureless Sintering and Reaction Bonding

Seiji HAYAMA; Masakuni OZAWA

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Thermal Shock Resistance of, #beta#'-Sialon-BN Composites Prepared by Pressureless Sintering and Reaction Bonding

机译：通过无压烧结和反应粘合制备的热抗冲击性#beta＃' - 赛隆-BN复合材料

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The thermal shock resistance of #beta#'-Sialon-BN composites prepared by two different sintering processes, pressureless sintering (PLS) and reaction bonding (RB), were investigated with respect to the effect of hexagonal-BN content. The addition of BN showed increasing porosity for PLS body and crack extension for RB body. The water quenching thermal shock test showed that PLS body had better thermal shock resistance, especially for BN 20 mass percent, than RB body. The results could be explained using Hasselman's theory, indicating that PLS bodies have shorter crack length with higher crack density.

机译：通过两个不同的烧结工艺，无气烧结（PLS）和反应键合（RB）制备的#beta＃' - sialon-bn复合材料的热抗震性研究。六边形-bn含量的效果研究。添加BN的添加孔隙率的增加对于PLS体和RB体的裂纹延伸。水猝灭热冲击试验表明，PLS主体具有更好的热抗冲击性，特别是对于BN 20质量％而不是Rb体。结果可以使用Hasselman的理论来解释，表明PLS主体具有较短的裂缝长度，裂缝密度较高。

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来源
《材料》 |1996年第6期|共6页
作者
Seiji HAYAMA; Masakuni OZAWA;
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egasus.cc.ucf.edu;

egasus.cc.ucf.edu;

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原文格式 PDF
正文语种 jpn
中图分类工程材料学;
关键词
beta; '-Sialon; Boron nitride; composite; pressureless sintering; reaction bonding; thermal;

机译：β;' - 唾液;氮化硼;复合材料;无气压烧结;反应键合;热;

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1. Thermal Shock Resistance of, #beta#'-Sialon-BN Composites Prepared by Pressureless Sintering and Reaction Bonding [J] . Seiji HAYAMA, Masakuni OZAWA 材料 . 1996,第6期

机译：通过无压烧结和反应粘合制备的热抗冲击性#beta＃' - 赛隆-BN复合材料
2. Thermal Shock Resistance of Si3N4/h-BN Composites Prepared via Catalytic Reaction-Bonding Route [J] . Yang Wanli, Peng Zhigang, Dai Lina, Journal of Materials Engineering and Performance . 2017,第9期

机译：通过催化反应键合制备的Si3N4 / H-BN复合材料的热抗震性
3. Thermal shock and fatigue behavior of pressureless sintered AlSubscript2/SubscriptOSubscript3/Subscript–SiOSubscript2/Subscript–ZrOSubscript2/Subscript composites [J] . G. Mebrahitom Asmelash, O. Mamat, F. Ahmad, Journal of Advanced Ceramics . 2015,第3期

机译：无压烧结Al 2 O 3 –SiO 2 –ZrO 2 复合材料的热冲击和疲劳行为
4. Bonding strength and thermal shock resistance of rhenium coating on fabric-base pierced carbon-carbon composites substrate prepared by chemical vapor deposition [C] . Guo Yue, Zhang Hong, Bai Shu-xin, Proceedings of 20th IFHTSE . 2012

机译：化学气相沉积法制备的fabric基碳-碳复合材料基织物上of涂层的结合强度和抗热震性
5. Pressureless sintering and oxidation resistance of zirconium diboride based ceramic composites. [D] . Peng, Fei. 2009

机译：二硼化锆基陶瓷复合材料的无压烧结和抗氧化性。
6. Effect of Titanium Addition on the Thermal Properties of Diamond/Cu-Ti Composites Fabricated by Pressureless Liquid-Phase Sintering Technique [O] . Chih-Yu Chung, Chao-Hung Chu, Mu-Tse Lee, -1

机译：钛对无压液相烧结技术制备的金刚石/ Cu-Ti复合材料热性能的影响
7. Thermal shock resistance of pressureless sintered SiC/AlN ceramic composites [O] . Dina H A Besisa, Emad M M Ewais, Yasser M Z Ahmed, 2018

机译：无压烧结SiC / ALN陶瓷复合材料的热抗震性能
8. Pressureless Sintering of Ceramic Composites [R] . Weiser, M. W. 1994

机译：无压烧结陶瓷复合材料

Thermal Shock Resistance of, #beta#'-Sialon-BN Composites Prepared by Pressureless Sintering and Reaction Bonding

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