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作 者:武高辉[1] 马森林[1] 赵永春[1] 杨德庄[1]
出 处:《材料研究学报》1998年第3期307-310,共4页Chinese Journal of Materials Research
摘 要:发现亚微米级Al2O3p/6061复合材料的微屈服抗力较高、组织稳定性好,其微屈服抗力与微望变符合Brown和Lukens提出的线性规律:通过与SiCp/6061和AlNp/6061的微屈服行为与组织的对比分析,认为增强体颗粒形状、尺寸以及基体中位错密度、亚晶粒尺寸等因素直接影响微屈服抗力.亚微米级颗粒增强复合材料对尺寸稳定性要求来说,微观组织形态较合理,是较理想的精密仪表材料.In the present paper, microyield characteristic of a Al2O3p /6061 composite was investigated and its microstructure was observed by TEM and HREM. It indicated that the Al2O3p/6061 composite had high microyield stress and good microstructure stability comparing to unreinfOrced 6061 alloy. And the relationship between microyield stress and microplastic strain was in keeping with the linear rule proposed by Brown and Lukens. By studying on the microyield behaviors and microstructures of Al2O3p/6061. SiCp/6061 and AlNp/6061 composites, it was found that the microyield stress was directly efFected by geometry shape, size, distribution of the reinforcement and dislocation density,precipitate, subcrystalline grain size in the matrix and interfacial bonding condition between the reinforcement and the matrix, etc.. Particulate in submicron scaIe reinforced composites have reasonablemicrostructrues for improving dimensional stability property, and is ideal material choice for precise instruments in present.
分 类 号:TB333[一般工业技术—材料科学与工程]
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