高熵碳化物和硼化物会成为极端环境下的有利材料吗?

IF 16.1 1区工程技术 Q1 ENGINEERING, MANUFACTURING

International Journal of Extreme Manufacturing Pub Date : 2023-02-20 DOI:10.1088/2631-7990/acbd6e

Fei Wang, F. Monteverde, B. Cui

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引用次数: 2

摘要

多主成分的概念为先进涡轮发动机、核反应堆和高超音速飞行器等极端环境中新型高熵陶瓷的开发创造了有希望的机会，因为它扩大了单相固溶体中具有定制性能的陶瓷材料的成分空间。一些高熵碳化物和硼化物具有比构成陶瓷更高的硬度、高温强度、更低的热导率和更好的耐辐照性等独特的物理性质。这些有希望的性质可能归因于组成的复杂性、原子水平的无序性、晶格畸变以及与缺陷形成和声子散射相关的其他基本过程。这份手稿作为一个重要的审查，在高熵碳化物和硼化物的最新进展，集中在合成和评估其性能在极端高温，辐射和气体环境。

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Will high-entropy carbides and borides be enabling materials for extreme environments?

The concept of multi-principal component has created promising opportunities for the development of novel high-entropy ceramics for extreme environments encountered in advanced turbine engines, nuclear reactors, and hypersonic vehicles, as it expands the compositional space of ceramic materials with tailored properties within a single-phase solid solution. The unique physical properties of some high-entropy carbides and borides, such as higher hardness, high-temperature strength, lower thermal conductivity, and improved irradiation resistance than the constitute ceramics, have been observed. These promising properties may be attributed to the compositional complexity, atomic-level disorder, lattice distortion, and other fundamental processes related to defect formation and phonon scattering. This manuscript serves as a critical review of the recent progress in high-entropy carbides and borides, focusing on synthesis and evaluations of their performance in extreme high-temperature, irradiation, and gaseous environments.

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来源期刊

International Journal of Extreme Manufacturing Engineering-Industrial and Manufacturing Engineering

CiteScore

17.70

自引率

6.10%

发文量

审稿时长

12 weeks

期刊介绍： The International Journal of Extreme Manufacturing (IJEM) focuses on publishing original articles and reviews related to the science and technology of manufacturing functional devices and systems with extreme dimensions and/or extreme functionalities. The journal covers a wide range of topics, from fundamental science to cutting-edge technologies that push the boundaries of currently known theories, methods, scales, environments, and performance. Extreme manufacturing encompasses various aspects such as manufacturing with extremely high energy density, ultrahigh precision, extremely small spatial and temporal scales, extremely intensive fields, and giant systems with extreme complexity and several factors. It encompasses multiple disciplines, including machinery, materials, optics, physics, chemistry, mechanics, and mathematics. The journal is interested in theories, processes, metrology, characterization, equipment, conditions, and system integration in extreme manufacturing. Additionally, it covers materials, structures, and devices with extreme functionalities.