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J. Korean Ceram. Soc. > Volume 35(10); 1998 > Article
Journal of the Korean Ceramic Society 1998;35(10): 1061.
전기용융 분말로부터 합성된 $Al_2$TiO$_5$ Ceramics의 열충격 저항성
김익진, Constantin Zografou1
무기재료공정 및 응용연구소, 한서대학교 재료공학과
1무기재료연구소 RWTH Acachen공대 독일.
Thermal Shock Resistance of $Al_2$TiO$_5$ Ceramics Prepared from Electrofused Powders
The thermal instability of Al2TiO5 Ceramics was contrlled by solid solution with MgO SiO2 and ZrO2 through electrofusion in an arc furnace. The thermal expansion properties of Al2TiO5 composites show the hysteresis due to the strong anisotropy of The crystal axes of these material. These phenomena are ex-plained by the opening and closing of microcracks. The difference in microcracking temperatures e.g 587.6(ATG2), 405.9(ATG3) and 519.7$^{circ}C$(ATG4) is caused by the difference in grain size and stabilizer type. The thermal shock behaviour under cyclic conditions between 750-1400-75$0^{circ}C$ show no change in mi-crostructure and phase assemblage for all three stabilized specimens. After the thermal loading test at 110$0^{circ}C$ for 100hrs. ATG1 and ATG2 materials decomposes completely to its components corundum and ru-tile in both cases. However with approximatelly 20% retention of the Al2TiO5 Thus in order to prevent decomposition of the stabilized material in the critical temperature range 800-130$0^{circ}C$ it must be traversed within a short period of time.
Key words: Al$_2$TiO$_5$ Thermal expansion. Hysteresis, Microcracking temperature, Thermal shock
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