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SiC_p/6151Al复合材料的微结构效应 被引量:1

MIROSTRUCTURE EFFECTS OF SiC_p PARTICLE-REINFORCED 6151Al MATRIXCOMPOSITES
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摘要 利用分离式 Hopkinson压杆和 MTS通用材料试验机研究了SiCp/6151Al颗粒增强复合材料在不同应变率下的变形行为和增强颗粒的尺寸对复合材料微结构及变形行为的影响.结果表明:对于在不同应变率下的 SiCp/6151Al复合材料,增强颗粒尺寸小的流动应力高于增强颗粒尺寸大的流动应力.根据位错强化理论中的Hall-Petch关系对这个结果进行了解释.首次在实验上观测到增强颗粒对复合材料微损伤-微带形成的影响,并根据微带(microband)形成的双位错墙理论(double dislocationwalls),分析了增强颗粒对复合材料微带损伤及力学性能影响的微结构效应. The deformation behavior under different strain rates and effect of particle size in SiCp particle-reinforced 6151AI matrix SiCp/615lAI composites were investigated. The experimental results demonstrate that there have been microstructure effects under different strain rates in particle-reinforced composites. That is the strengthening effect of the small-size particle-reinforced composite is higher than that of the large-size particle-reinforced composite. The explanation is given based on the dislocation-reinforced theory. At the same time, according to the theory of double dislocation walls on formation of microband, the effect of reinforced particle size on the microband formation is explicated. The micrographs of loaded samples showed that reinforcing particles block the formation of microbands. The microstructure analysis shows that reinforcing particles and its size are the main cause of microstructure change and reinforcing effect.
作者 刘龙飞 戴兰宏 凌 中 杨国伟
机构地区 中国科学院力学研究所非线性力学国家重点实验室(LNM) 湘潭大学
出处 《材料研究学报》 EI CAS CSCD 北大核心 2002年第3期238-242,共5页 Chinese Journal of Materials Research
基金 国家自然科学基金资助项目 19902017 中国科学院资助KJ-951-1-201.
关键词 SiCp/6151A复合材料 应变率 微结构效应 尺寸效应 碳化硅 颗粒增强金属基复合材料 metal matrix composite, size effect, microband, high strain rate
分类号 TB333 [一般工业技术—材料科学与工程]
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材料研究学报
2002年 第3期

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