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高能球磨法制备高性能均一分散CNTs/Al5083复合材料 被引量:3

CNTs/Al5083 Composites of High-performance Uniform and Dispersion Fabricated by High-energy Ball-milling
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摘要 采用卧式高能球磨法制备0%~2%CNTs/Al5083(质量分数)复合材料,研究球磨时间和CNTs含量对复合材料性能的影响。采用扫描电镜(SEM)和透射电镜(TEM)对复合材料的形貌进行表征,测试复合材料的抗拉强度及硬度。结果表明:当球磨时间为1.5h时,CNTs可均匀分散在Al5083基体中;CNTs质量分数为1.5%时,CNTs/Al5083界面结合力最好,复合材料的抗拉强度和硬度分别为188.8MPa和136HV,比未加CNTs的Al5083合金基体分别提高了32.2%和36%。 Carbon nanotubes (CNTs, mass fraction of 0% ) reinforced A15083 composites were fabricated by horizontal high-energy ball milling. The effects of ball milling time and CNTs contents on the properties of composite materials were studied. The micro morphology of CNTs/Al5083 com-posites was characterized by scanning electron microscopy(SEM) and transmission electron microsco- py(TEM) , the tensile strength and microhardness of the composites were tested. The results indicate that after high-energy ball milling for 1. 5h, the carbon nanotubes are dispersed homogeneously in the A15083 matrix, and good interfacial bonding strength between CNTs and A15083 is obtained at the ad-dition of 1.5% CNTs. Under these conditions, the tensile strength and microhardness of CNTs/ A15083 composites are 188. 8MPa and 136HV, respectively. Compared to A15083 matrix without CNTs reinforcement, tensile strength and microhardness of CNTs/Al5083 composites are increased by 32. 2% and 36 % , respectively.
作者 郭鲤 蔡晓兰 李铮 周蕾 彭刚 张文忠 王子阳
机构地区 昆明理工大学冶金与能源工程学院
出处 《材料工程》 EI CAS CSCD 北大核心 2017年第11期122-128,共7页 Journal of Materials Engineering
基金 云南省高校金属粉体制备与设备开发科技创新团队支持计划资助(14051693) 云南省重大项目资助(2014FC001)
关键词 Al5083 CNTS 高能球磨 力学性能 Al5083 CNTs high-energy ball milling mechanical property
分类号 TB331 [一般工业技术—材料科学与工程]
作者简介 通讯作者:蔡晓兰(1965-),女,教授,博士,从事专业:粉体及复合材料制备,联系地址:云南省昆明市昆明理工大学莲花校区冶能学院(650093)E-mail:cxl9761@126.com
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  • 1IIJIMA S. Helical microtubles of graphitic carbon [ J ]. Nature, 1991, 354:56 -58.
  • 2CHEN X, XIA J, PENG J. Carbon nanotube metal-matrix composites prepared by electroless plating [ J ]. Comps Sci Tech, 2000, 60:301 -306.
  • 3BIAN Zan, PANG Ming-xiaug, ZHANG Yun, et al. Carbon-nanotube-reinforced Zr52. 5Cu17. 9Ni14. 6Al10Ti5 bulk metallic glass composites[J]. Appl Phys Lett, 2002, 18: 4739 -4771.
  • 4ZOOYS, AN J W, LIM D P, et al. Effect of carbon nanotube addition on tribological behavior of UHMWPE [J]. Tribology Letters, 2004, 16(4) :305 -309.
  • 5MA R Z, WU J, WEi B Q, et al. Processing and properties of carbon nanotubes-nano-SiC ceramic [ J ]. Journal of Materials Science, 1998, 33:5243 - 5246.
  • 6KUZUMAKI T, MIYAZAWA K, ICHINOSE H, et al. Processing of carbon nanotubes reinforced aluminum composite[J]. J MaterRes 1998, 13:2445-2449.
  • 7ZHONG R, CONG H, Fabrication of nano-Al based composite reinforced by single-walled carbon nanotubes [J]. Carbon, 2003, 41:849-851.
  • 8NOGUCHI Toru, MAGARIO Akira, FUKAZAWA Shigeru, et al. Carbon nanotube/aluminium composites with uniform dispersion [ J ]. Mater Trans, 2004, 45 (2) :602 -604.
  • 9LAHA T, AGARWAT A, TIM M, et al. Synthesis and characterization of plasma spray formed carbon nanotube reinforced aluminum composite [ J]. Mater Sci Eng A, 2004, 381:249 - 258.
  • 10KUAZUMAKI T, UJIIE O, ICHINOSE H, et al. Mechanical characteristics and preparation of carbon nanotube fiber reinforced Ti composite[ J]. Advan Eng Mater, 2000, 2(7):416-418.

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材料工程
2017年 第11期

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