%0 Journal Article
%T ZrB2-SiC/(C/C)复合涂层材料微观结构与静态氧化特性
Microstructure and static oxidation performance of ZrB2-SiC/(C/C) composite coating
%A 薛朋飞
%A 刘津生
%A 孙建涛
%A 解惠贞
%A 秦淑颖
%A 崔红
%J 复合材料学报
%D 2019
%R 10.13801/j.cnki.fhclxb.20190402.001
%X 采用涂刷法在C/C复合材料表面制备了ZrB2-SiC复合涂层,采用XRD和SEM分析了涂层的相组成和微观结构,并研究了ZrB2-SiC/(C/C)复合涂层材料在1 200℃和1 500℃的静态氧化性能。结果表明:ZrB2-SiC涂层结构致密,无明显的孔洞和裂纹;涂层有效改善了材料的抗氧化性能,经1 200℃静态氧化60 min后,ZrB2-SiC/(C/C)复合涂层材料失重率仅为2.4%,1 500℃时失重率增大至15%,小于无涂层保护的C/C复合材料(~35%)。ZrB2-SiC/(C/C)复合涂层材料氧化后,形成了含有ZrO2等高熔点颗粒的玻璃态SiO2氧化膜,能够有效抑制氧的扩散,从而提高了C/C复合材料抗氧化性能。 The ZrB2-SiC composite coatings were prepared on C/C composites by slurry painting. The phase composition and microstructure of the as-prepared ZrB2-SiC/(C/C) composites were analyzed by XRD spectroscopy and SEM, and the static oxidation behavior at 1 200℃ and 1 500℃ were also investigated. The results show that the ZrB2-SiC coatings are compact and uniform without obvious pores and cracks. After static oxidizing at 1 200℃ for 60 min, the mass loss rate of the as-prepared ZrB2-SiC/(C/C) composites is only about 2.4%. At 1 500℃, the mass loss rate increases to about 15%, but it is still lower than that of C/C composites without anti-oxidation coatings(~35%). In the static oxidation process, the significantly improved oxidation resistance of the as-prepared ZrB2-SiC/(C/C) composites is attributed to the generated glassy SiO2 film containing high melting point particles such as ZrO2. 装备预研联合基金(6141B06300103
%K C/C复合材料
%K ZrB2
%K SiC
%K 涂层
%K 氧化
C/C composites
%K ZrB2
%K SiC
%K coating
%K oxidation
%U http://fhclxb.buaa.edu.cn/CN/abstract/abstract14572.shtml