Browse > Article
http://dx.doi.org/10.4150/KPMI.2014.21.1.50

Fabrication and Evaluation of Carbon Nanotube Reinforced Al Matrix Composite by a Powder-in-sheath Rolling Method  

Lee, Seong-Hee (Department of Advanced Materials Science and Engineering, Mokpo National University)
Hong, Dongmin (Department of Advanced Materials Science and Engineering, Mokpo National University)
Publication Information
Journal of Powder Materials / v.21, no.1, 2014 , pp. 50-54 More about this Journal
Abstract
A powder-in-sheath rolling method was applied to a fabrication of a carbon nano tube (CNT) reinforced aluminum composite. A STS304 tube with an outer diameter of 34 mm and a wall thickness of 2 mm was used as a sheath material. A mixture of pure aluminum powders and CNTs with the volume contents of 1, 3, 5 vol was filled in the tube by tap filling and then processed to 73.5% height reduction by a rolling mill. The relative density of the CNT/Al composite fabricated by the powder-in-sheath rolling decreased slightly with increasing of CNTs content, but exhibited high value more than 98. The grain size of the aluminum matrix was largely decreased with addition of CNTs; it decreased from $24{\mu}m$ to $0.9{\mu}m$ by the addition of only 1 volCNT. The average hardness of the composites increased by approximately 3 times with the addition of CNTs, comparing to that of unreinforced pure aluminum. It is concluded that the powder-in-sheath rolling method is an effective process for fabrication of CNT reinforced Al matrix composites.
Keywords
Powder-in-sheath rolling; Multi-walled carbon nanotubes; Al matrix composite; Mechanical property; Microstructure;
Citations & Related Records
Times Cited By KSCI : 4  (Citation Analysis)
연도 인용수 순위
1 S. H. Lee and C. H. Lee: J. Kor. Powd. Met. Inst., 11 (2004) 259.   DOI   ScienceOn
2 K. Ohori, H. Watanabe and Y. Takeuchi: Mater. Sci. & Tech., 3 (1987) 57.   DOI
3 N. C. Kothari: Powder Metall. Int., 18 (1986) 321.
4 S. H. Hong and K. H. Chung: Mater. Sci. Eng., A194 (1995) 165.   DOI   ScienceOn
5 W. F. Wang: Powder Metall., 38 (1995) 289.   DOI
6 D. M. Hong, W. J. Kim and S. H. Lee: J. Kor. Powd. Met. Inst., 23 (2013) 11.
7 A. M. K. Esawi, K. Morsi, A. Sayed, M. Taher and S. Lanka: Com. Sci. Tech., 70 (2010) 2237.   DOI   ScienceOn
8 H. J. Choi, D. H. Bae: Mater. Sci. Eng., A528 (2011) 2412.   DOI   ScienceOn
9 J. K. Lim, K. H. Choe, S. S. Kim and G. S. Cho: Kor. J. Met. Mater., 51 (2012) 317.
10 I. J. Palmear: Light Alloys, Arnold, Butterworth-heinemann Press, London, 325 (1995).
11 Y. Genma, Y. Tsunekawa, M. Okumiya and N. Mohri: Materials Transactions, JIM, 38 (1997) 232.   DOI
12 S. H. Lee and C. H. Lee: J. Kor. Powd. Met. Inst., 10 (2003) 103.   DOI   ScienceOn
13 A. M. K. Esawi, K. Morsi, A. Sayed, A. Abdel Gawad and P. Borah: Mater. Sci. Eng., A508 (2009) 167.   DOI   ScienceOn
14 S. H. Joo and H. S. Kim: Trans. Mater. Process., 19 (2010) 423 (Korea).   DOI   ScienceOn