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无压烧结Al2O3/SiC纳米复相陶瓷的研究
引用本文:韩亚苓,梁勇,线全刚,蒋玉齐,战可涛,李家麟. 无压烧结Al2O3/SiC纳米复相陶瓷的研究[J]. 硅酸盐学报, 2001, 29(1): 76-79
作者姓名:韩亚苓  梁勇  线全刚  蒋玉齐  战可涛  李家麟
作者单位:1. 中国科学院沈阳金属研究所激光加工实验室,沈阳工业大学材料学院,
2. 中国科学院沈阳金属研究所激光加工实验室,
摘    要:将粒径为30~35nm的β-SiC粉,加入亚微米尺寸的α-Al

关 键 词:无压烧结 氧化铝/碳化硅纳米复相陶瓷 β碳化硅纳米粉 抗弯强度 断裂韧性
文章编号:0454-5648(2001)01-0076-04
修稿时间:2000-05-11

STUDY ON PRESSURELESS SINTERING OF Al2O3/SiC NANOCOMPOSITE CERAMICS
Han Yaling. STUDY ON PRESSURELESS SINTERING OF Al2O3/SiC NANOCOMPOSITE CERAMICS[J]. Journal of The Chinese Ceramic Society, 2001, 29(1): 76-79
Authors:Han Yaling
Abstract:β-SiC nanometer powder with the mean particle size of 30~35 nm, as the strengthening phases, was added into α-Al2O3 powder with the mean particle size of 0.37 μm. The pressureless sintering technology was used to prepare the Al2O3/SiC nanocomposite ceramics. The experimental results show that the relative density of the sintered body can reach 98.82%, and the flexural strength and the fracture toughness reach 489 MPa and 6.67 MPa*m1/2 respectively. The microstructure was observed by means of SEM. It has been found that the grain boundary structure of alumina ceramics consists of both the bridge of“ Al2O3-SiC-Al2O3”and the phase boundary of “SiC-Al2O3”, forming firmly combined composite boundary. This composite boundary raises the strength of the grain boundary, and limits the crack producing and growing only within the grain. The fracture mode is transformed from brittle intergranular fracture to intragranular fracture. Both the sub_structure and nano SiC particles within the grain can slow down the growing speed of cracks and increase strength and toughness greatly. The amount of O2 existing in nanopowder can bring serious influence to the properties and microstructure of the sintered body. The contrast test that utilizing Si/C/N amorphous compound powder as the strengthening phases was done, too.
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