Recession Characteristics of Lu2Si2O7 in Combustion Gas Flow at High Temperature and High Speed
Isao YURI, Tohru HISAMATSU, Shunkichi UENO and Tatsuki OHJI
Abstract:In order to understand recession behavior and the amount of recession of Lu2Si2O7 in the combustion gas flow, sintered Lu2Si2O7 specimens were manufactured by hot pressing and exposed under various combustion gas flow conditions (T = 1300-1500 oC, P = 0.3 Mpa, V = 150 m/s, PH2O = 27-69 kPa, t = 10h). After the exposure tests, etch pits, which are assumed to form due to volatilization of SiO2 in the grain boundary phase, were observed at the surface of specimen. The amount of Lu2SiO5 phase at the surface of specimen increased with the increase of gas temperature or water vapor partial pressure. A corresponding decrease in the amount of Lu2Si2O7 phase was observed. Furthermore, by using the average weight loss rate for exposure times of ten hours, the influence of gas temperature and water vapor partial pressure on weight loss rate was examined, and the amount of recession under gas turbine conditions was calculated. Superior environmental resistance was shown relative to Si3N4, SiC and Al2O3. Key Words:Ceramics, Gas turbine, Environmental barrier coating, Recession characteristics, High temperature and high speed