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SiC晶须及原位增强Si3N4基复合材料的断裂过程
引用本文:翟洪祥,袁泉,黄勇,汪长安. SiC晶须及原位增强Si3N4基复合材料的断裂过程[J]. 硅酸盐学报, 1998, 26(5): 571-577
作者姓名:翟洪祥  袁泉  黄勇  汪长安
作者单位:1. 北方交通大学机械系
2. 清华大学材料科学与工程系
基金项目:中国科学院资助项目,国家重点实验室基金,59672029,,,
摘    要:探讨了SiC晶须增强和β-sialon细长晶粒原位增强Si3N4基复合材料的断裂过程。2种材料的试验结果都显示出明显的二级增韧行为:一级增韧过程,断裂阻抗KR随微小的裂纹扩展而急剧增大,大裂纹扩展到大约0.25mm时达到饱和;二级增韧过程,KR缓慢增长,一直持续到裂纹扩展达到1mm(原位增强)和1.8mm(晶须增强),观察和分析表明:二级增韧行为的发生,本质上起因于裂纹尖端后方桥接晶须和细长晶粒与

关 键 词:氮化硅 复合材料 断裂 原位增强 复合陶瓷 晶须

FRACTURE PROCESS OF SiC_WHISKER_REINFORCED AND IN_SITU REINFORCED Si3N4 COMPOSITES
Zhai Hongxiang,Yuan Quan,Huang Yong,Wang Changan. FRACTURE PROCESS OF SiC_WHISKER_REINFORCED AND IN_SITU REINFORCED Si3N4 COMPOSITES[J]. Journal of The Chinese Ceramic Society, 1998, 26(5): 571-577
Authors:Zhai Hongxiang  Yuan Quan  Huang Yong  Wang Changan
Abstract:Fracture resistance process of SiC_whisker_reinforced and in_situ reinforced Si 3N 4 composites was explored. The experimental results of both the materials show considerable two_step toughening behavior. In the first toughening process, the fracture resistance K R increases quickly with crack extension, and becomes constant when the crack extension is about 0.25 mm; while in the secondary toughening process K R gradually increase, until the crack extension reaches 1 mm (for in_situ reinforcement) and 1.8 mm (for whisker reinforcement). The observations and the analyses indicate that, the two_step toughening behavior results essentially from the further debonding of the whisker-matrix interfaces (or the grain boundaries) in the crack bridging zone behind the crack tip , and the orientation angle of the whiskers (or the elongated grains) with respected to the normal direction of crack surface was the dominant cause for the further debonding.
Keywords:silicon nitride composites   fracture resistance   interface debonding   whisker reinforcement   in_situ reinforcement  
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