Sintering, high temperature strength and oxidation resistance of liquid-phase-pressureless-sintered SiC-AlN ceramics with addition of rare-earth oxides

Giuseppe Magnani; Francesco Antolini; Leandro Beaulardi

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Sintering, high temperature strength and oxidation resistance of liquid-phase-pressureless-sintered SiC-AlN ceramics with addition of rare-earth oxides

机译：添加稀土氧化物的液相无压烧结SiC-AlN陶瓷的烧结，高温强度和抗氧化性

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SiC-AlN composites can be pressureless sintered with the addition of rare-earth oxides (RE = Y, Yb, Er, Lu, Ho, Sm, Ce) and without protective powder bed. Sintered bodies showed high density (>=97 percent T.D.) and were mainly composed by 2H SiC-AlN solid solution with additive containing grain boundary phases. The high temperature strength and oxidation resistance of the composites were also investigated and correlated with the cationic radii of the oxide additives. The flexural strength at 1500 deg C increased from 269 MPa to 587 MPa as direct consequence of the rare-earth cationic radius decrease. The specific weight gain during oxidation at 1500 deg C for 200 h showed the same behaviour, decreasing from 12.60 mg/cm~2 to 3.13mg/cm~2.

机译：SiC-AlN复合材料可通过添加稀土氧化物（RE = Y，Yb，Er，Lu，Ho，Sm，Ce）进行无压烧结，并且无需保护性粉末床。烧结体显示出高密度（T.D。> = 97％），并且主要由2H SiC-AlN固溶体和含晶界相的添加剂组成。还研究了复合材料的高温强度和抗氧化性，并将其与氧化物添加剂的阳离子半径相关联。稀土阳离子半径减小的直接结果是，在1500摄氏度下的抗弯强度从269 MPa增加到587 MPa。 1500℃下氧化200 h时的比重增加表现出相同的行为，从12.60 mg / cm〜2降至3.13mg / cm〜2。

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《Journal of the European Ceramic Society》 |2009年第11期|共7页
作者
Giuseppe Magnani; Francesco Antolini; Leandro Beaulardi;
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正文语种 eng
中图分类陶瓷工业;
关键词
Sintering; Composites; Mechanical Properties; SiC; Rare-earth oxides;

机译：烧结;复合材料;力学性能;SiC;稀土氧化物;

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1. Sintering, high temperature strength and oxidation resistance of liquid-phase-pressureless-sintered SiC-AlN ceramics with addition of rare-earth oxides [J] . Giuseppe Magnani, Francesco Antolini, Leandro Beaulardi Journal of the European Ceramic Society . 2009,第11期

机译：添加稀土氧化物的液相无压烧结SiC-AlN陶瓷的烧结，高温强度和抗氧化性
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5. Effects of Oxide Additions on the Corrosion Behaviour of Chromium(III) Oxide Based Ceramics in High Temperature Supercritical Water Environment. [D] . Wang, Renfei. 2012

机译：氧化物对高温超临界水环境中氧化铬（III）陶瓷腐蚀行为的影响。
6. Oxidation Resistance and Microstructure Evaluation of a Polymer Derived Ceramic (PDC) Composite Coating Applied onto Sintered Steel [O] . Tercius Justus, Priscila Gonçalves, Martin Seifert, 2019

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7. Pressureless Sintering and High-Temperature Strength of SiC-AlN Ceramics [O] . Jing-Feng LI, Ryuzo WATANABE 1994

机译：SiC-ALN陶瓷的无压烧结和高温强度
8. Basic Mechanisms Providing Oxidation Resistance in Structural Metals at High Temperatures. Volume I. The Effect of Gaseous Pretreatment and Oxide Sintering on Oxidation of Ti-4.32wt.% Cb and Ti-0.96wt.% Si. [R] . rosa, casimir j. 1975

机译：在高温下提供结构金属抗氧化的基本机制。第一卷。气体预处理和氧化物烧结对Ti-4.32wt。％Cb和Ti-0.96wt。％si的氧化的影响。

Sintering, high temperature strength and oxidation resistance of liquid-phase-pressureless-sintered SiC-AlN ceramics with addition of rare-earth oxides

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