科技报告详细信息
Oxidation Study of an Ultra High Temperature Ceramic Coatings Based on HfSiCN
Sacksteder, Dagny ; Waters, Deborah L ; Zhu, Dongming
关键词: CERAMIC COATINGS;    PROTECTIVE COATINGS;    THERMAL PROTECTION;    REACTION KINETICS;    CERAMIC MATRIX COMPOSITES;    FIBER COMPOSITES;    HIGH TEMPERATURE;    THERMOGRAVIMETRY;    HIGH STRENGTH;    OXIDATION;   
RP-ID  :  NASA/TM-2018-219789,E-19491,GRC-E-DAA-TN51074
学科分类:复合材料
美国|英语
来源: NASA Technical Reports Server
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【 摘 要 】

High temperature fiber-reinforced ceramic matrix composites (CMCs) are important for aerospace applications because of their low density, high strength, and significantly higher-temperature capabilities compared to conventional metallic systems. The use of the SiCf/SiC and Cf/SiC CMCs allows the design of lighter-weight, more fuel efficient aircraft engines and also more advanced spacecraft airframe thermal protection systems. However, CMCs have to be protected with advanced environmental barrier coatings when they are incorporated into components for the harsh environments such as in aircraft engine or spacecraft applications. In this study, high temperature oxidation kinetics of an advanced HfSiCN coating on Cf/SiC CMC substrates were investigated at 1300 C, 1400 C, and 1500 C by using thermogravimetric analysis (TGA). The coating oxidation reaction parabolic rate constant and activation energy were estimated from the experimental results. The oxidation reaction studies showed that the coatings formed the most stable, predominant HfSiO4-HfO2 scales at 1400 C. A peroxidation test at 1400 C then followed by subsequent oxidation tests at various temperatures also showed more adherent scales and slower scale growth because of reduced the initial transient oxidation stage and increased HfSiO4-HfO2 content in the scales formed on the HfSiCN coatings.

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