超高温陶瓷基复合材料的合成研究进展

Farrokhfar Valizadeh Harzand, Sahar Anzani, A. Babapoor
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引用次数: 0

摘要

一种设计用于超高温(UHTCs)的陶瓷材料,通常由过渡金属元素衍生的氮化物、碳化物和硼化物组成,特别关注属于TaC和IVB族(Hf和Zr)的化合物。高超声速飞行器的喷管和发动机部件可以利用这些材料的独特特性。目前正在开发一系列基于UHTC的涂层和复合材料,以克服大块陶瓷固有的易碎性、抗热震性弱和脆性。近年来,具有高熵的超高温材料受到了广泛的关注。本报告将对UHTC复合材料和涂层的现状进行综述。本文将进一步讨论其性能和实现微观结构的加工方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent advances in synthesis of ultra-high temperature ceramic matrix composites
A ceramic material designed for ultra-high temperatures (UHTCs) generally comprised of nitrides, carbides, and borides derived from transition metal elements, with a particular focuson compounds belonging to TaC and Group IVB (Hf and Zr). Hypersonic vehicle nozzles andengine components can take advantage of the unique characteristics of these materials. A broadrange of coatings and composites based on UHTC is currently being developed to conquer theinherent fragility, weak thermal shock resistance, and brittleness of bulk ceramics. Ultra-hightemperature materials with high entropy have gained considerable attention in recent years. Areview of the current state of the art of UHTC composites and coatings will be provided in thisreport. Properties and processing approaches to achieve the microstructure will be discussedfurther.
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