Influences of Al concentration and Nb addition on oxidation behavior of Ti2AlC ceramics at high temperatures

IF 2.2 4区 材料科学 Q2 MATERIALS SCIENCE, CERAMICS
N. Yamaguchi, J. Dąbek, T. Brylewski, Yen-Ling Kuo, M. Nanko
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引用次数: 0

Abstract

ABSTRACT A titanium aluminum carbide, Ti2AlC, which is classified among MAX phase ceramics, was studied as a potential candidate for various mechanical components used in high-temperature applications. The impact of its chemical composition on its high-temperature oxidation process was determined. Ti2AlC powders with various Al contents and with or without Nb addition were synthesized via a conventional reaction technique followed by 16 h of annealing in vacuum at 1300°C. The synthesized Ti2AlC powders were consolidated by means of 15 min of pulsed electric current sintering at a die temperature of 1300°C in vacuum under a uniaxial pressure of 30 MPa. In the presence of an aluminum reservoir in the form of TiAl3, Ti2AlC has excellent resistance against high-temperature oxidation. The promising results concerning the addition of Nb to TiAl provided the rationale for a similar modification of Ti2AlC. The results of oxidation tests on Nb-doped Ti2AlC likewise showed excellent oxidation resistance. Alloying with Nb can improve the oxidation resistance of Ti2AlC with low Al content, allowing the formation of a protective Al2O3 scale and inhibiting the growth of TiO2.
Al浓度和Nb加入对Ti2AlC陶瓷高温氧化行为的影响
摘要:本文研究了MAX相陶瓷中钛铝碳化物(Ti2AlC)作为各种高温机械部件的潜在候选材料。确定了其化学成分对其高温氧化过程的影响。采用常规反应技术,在1300℃真空退火16 h,合成了不同Al含量和添加或不添加Nb的Ti2AlC粉末。制备的Ti2AlC粉末在单轴压力为30 MPa、模具温度为1300℃的真空条件下,通过脉冲电流烧结15 min进行固结。在以TiAl3形式存在的铝储层中,Ti2AlC具有优异的耐高温氧化性。在TiAl中添加Nb的结果为Ti2AlC的类似改性提供了理论依据。铌掺杂Ti2AlC的氧化试验结果同样显示出优异的抗氧化性能。与Nb合金化可以提高低Al含量Ti2AlC的抗氧化性,使其形成保护性的Al2O3水垢,抑制TiO2的生长。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Asian Ceramic Societies
Journal of Asian Ceramic Societies Materials Science-Ceramics and Composites
CiteScore
5.00
自引率
4.30%
发文量
78
审稿时长
10 weeks
期刊介绍: The Journal of Asian Ceramic Societies is an open access journal publishing papers documenting original research and reviews covering all aspects of science and technology of Ceramics, Glasses, Composites, and related materials. These papers include experimental and theoretical aspects emphasizing basic science, processing, microstructure, characteristics, and functionality of ceramic materials. The journal publishes high quality full papers, letters for rapid publication, and in-depth review articles. All papers are subjected to a fair peer-review process.
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