Y-α/β-Sialon陶瓷材料及疲劳特性研究  被引量:2

Y-α/β-Sialon Ceramics and Its Fatigue Behavior

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作  者:邬凤英[1] 詹国栋[1] 庄汉锐[1] 来亭荣[1] 

机构地区:[1]中国科学院上海硅酸盐研究所,上海200050

出  处:《无机材料学报》1997年第4期579-583,共5页Journal of Inorganic Materials

基  金:国家自然科学基金!19392300

摘  要:本文通过组份设计,选用Si3N4、AIN和Y2O3等粉末为原料,在1800~1950℃进行气氛加压烧结(GPS),制备了性能优良的Y-α/β-Sialon陶瓷材料;利用XRD、EDAX和HREM详细地研究了相组成和晶界特性,其主晶相为β-Sialon和α-Sialon,晶界由少量的J-Y4Si2O7N2结晶相以及微量的玻璃相构成;并进一步探讨了材料在循环疲劳载荷下Vickers压痕短裂纹扩展特性,结果表明,最大应力强度因子与裂纹扩展速率之间呈V型扩展行为,并对外加应力水平非常敏感.The investigations were mainly focused on the phase composition, microstructure and fatigue behavior of fully-dense Y-α/β-Sialon ceramics prepared from powder mixtures of Si3N4, AlN and Y2O3 by using gas pressure sintering technique.The results obtained show that the typical microstructure of mixed Y-α/β-Sialon ceramics consists of needle-like grains of the β-phase and equi-axed α-Sialon grains with a small amount of glassy phase and J-Y4Si2O7N2[102] crystalline phase on grain boundaries.The cyclic fatigue crack growth behavior from microindentation flaws was investiated with gas pressure sintered Y-α/β-Sialon ceramics, A V-shape behavior was observed in the relation between the maximum applied stress intensity factor and crack growth rates which are sensitive to the level of applied stresses.

关 键 词:显微结构 疲劳 裂纹扩展 陶瓷材料 

分 类 号:TQ174.15[化学工程—陶瓷工业]

 

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