High-Temperature Mass Spectrometric Study of the Vaporization of Oxycarbide MAX Phase Ceramics

IF 1.8 3区化学 Q3 CHEMISTRY, INORGANIC & NUCLEAR

Russian Journal of Inorganic Chemistry Pub Date : 2024-07-17 DOI:10.1134/s0036023623603045

V. A. Vorozhtcov, V. L. Stolyarova, S. I. Lopatin, A. L. Shilov

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Abstract

The vaporization of the carbide materials with the chemical compositions Ti₂SiC, Ti₃SiC₂, Ti₂AlC, Ti₃AlC₂, Zr₂AlC, and Zr₃AlC₂ containing MAX phases and of oxycarbide systems based on these materials with hafnia additives was examined by Knudsen effusion mass spectrometry at temperatures up to 2200 K. Atomic aluminum was identified as the major vapor species over the Ti₂AlC, Ti₃AlC₂, Zr₂AlC, and Zr₃AlC₂ samples at 1500 K. The silicon-containing samples were less volatile than the aluminum-containing carbide materials; they vaporized observably at temperatures above 1900 K to form Si, Si₂, SiC₂, and Si₂C vapor species. The addition of hafnia to the carbides under study led to the formation of oxygen-containing vapor species, particularly Al₂O and SiO, and to a decrease in total vapor pressure over the systems formed. The least volatile materials were samples of the Ti₂SiC–HfO₂ oxycarbide system, and among the aluminum-containing oxycarbide systems, samples of the Zr₂AlC–HfO₂ system containing up to 10 mol % hafnia and samples of the Ti₂AlC–HfO₂ system with a higher HfO₂ content.

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氧碳化物 MAX 相陶瓷蒸发的高温质谱研究

摘要在温度高达 2200 K 的条件下，通过克努森流出质谱法研究了化学成分为 Ti2SiC、Ti3SiC2、Ti2AlC、Ti3AlC2、Zr2AlC 和 Zr3AlC2 且含有 MAX 相的碳化物材料以及以这些材料为基础并添加了哈夫纳添加剂的碳氧体系的气化情况。在 1500 K 的温度下，Ti2AlC、Ti3AlC2、Zr2AlC 和 Zr3AlC2 样品的主要蒸气种类是原子铝。含硅样品的挥发性低于含铝碳化物材料；它们在 1900 K 以上的温度下明显蒸发，形成 Si、Si2、SiC2 和 Si2C 蒸气种类。在所研究的碳化物中加入哈夫纳，会形成含氧的气态物质，尤其是 Al2O 和 SiO，并降低所形成体系的总气压。挥发性最小的材料是 Ti2SiC-HfO2 氧碳化物体系的样品，而在含铝氧碳化物体系中，则是含高达 10 mol % 哈夫纳的 Zr2AlC-HfO2 体系的样品和 HfO2 含量较高的 Ti2AlC-HfO2 体系的样品。

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来源期刊

Russian Journal of Inorganic Chemistry 化学-无机化学与核化学

CiteScore

3.10

自引率

38.10%

发文量

237

审稿时长

3 months

期刊介绍： Russian Journal of Inorganic Chemistry is a monthly periodical that covers the following topics of research: the synthesis and properties of inorganic compounds, coordination compounds, physicochemical analysis of inorganic systems, theoretical inorganic chemistry, physical methods of investigation, chemistry of solutions, inorganic materials, and nanomaterials.