CAJ | 학술논문

试验采用搅拌铸造法制备了纳米碳管增强铝基复合材料，对其显微组织、硬度、抗拉强度和电阻率进行了研究．结果表明：纳米碳管的加入能够细化复合材料晶粒，表面镀铜后可以抑制基体与增强体之间的界面反应，避免脆性碳化物的生成；复合材料的硬度和抗拉强度随着纳米碳管加入量的增加先增加后减小，纳米碳管的质量分数为1．0％时，达到最大值，与基体相比分别增加了34．8％和34．4％；纳米碳管的加入对基体的导电性影响不大．
시험채용교반주조법제비료납미탄관증강려기복합재료，대기현미조직、경도、항랍강도화전조솔진행료연구．결과표명：납미탄관적가입능구세화복합재료정립，표면도동후가이억제기체여증강체지간적계면반응，피면취성탄화물적생성；복합재료적경도화항랍강도수착납미탄관가입량적증가선증가후감소，납미탄관적질량분수위1．0％시，체도최대치，여기체상비분별증가료34．8％화34．4％；납미탄관적가입대기체적도전성영향불대．
Aluminum matrix composites reinforced by carbon nanotubes were prepared by stir casting. The microstructure,hardness,tensile strength and resistivity of aluminum matrix composites were studied. The results show that carbon nanotubes could refine the grain of composites and carbon nanotubes with copper plating could avoid interface reaction between the reinforcement and the aluminum matrix,which would generate matrix brittle carbides. With the increase of carbon nanotubes,the strength and hardness of composites increased first and then decreased. When the content of CNTs was 1 .0% ,the tensile strength and hardness of aluminum matrix composites reinforced by carbon nanotubes reached the maximum value,with an increase of 34.8% and 34.4% respectively. In addition,electric resistance test shows that carbon nanotubes had little effect on the conductivity of the aluminum matrix.