Profile

New User

New to Graphy Publications? Create an account to get started today.

Registered Users

Have an account? Sign in now.

How to Cite | Author Information | Publication History
International Journal of Metallurgical & Materials Engineering Volume 1 (2015), Article ID 1:IJMME-105, 7 pages
http://dx.doi.org/10.15344/2455-2372/2015/105
Research Article
Microstructural Evolution of Al Composite Powders Reinforced by Nanoand Micrometric SiC Particles During Mechanical Milling

S. Kamrani1,2*, R.Riedel2 and S.M. Seyed Reihani1

1Department of Material Science and Engineering, Sharif University of Technology, 11365-9466, Azadi Avenue 14588 Tehran, Iran
2Dispersive Solids Group, Darmstadt University of Technology, Petersenstr.23. D-64287, Germany
Dr. Sepideh Kamrani, Department of Material Science and Engineering, Sharif University of Technology, 11365-9466, Azadi Avenue 14588 Tehran, Iran; E-mail: sepideh.kamrani@tu-berlin.de
23 March 2015; 10 May 2015; 12 May 2015
Kamrani S, Riede R, Seyed Reihani SM (2015) Microstructural Evolution of Al Composite Powders Reinforced by Nano- and Micrometric SiC Particles During Mechanical Milling. Int J Metall Mater Eng 1: 105. doi: http://dx.doi.org/10.15344/2455-2372/2015/105
© 2015 Kamrani et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

References

  1. Szcezepanik S, Sleboda T (1996) The influence of the hot deformation and heat treatment on the properties of P/M Al-Cu composites. Journal of Materials Processing Technology 60: 729-733. View
  2. Clyne TW, Whiters PJ (1993) An Introduction to Metal Matrix Composites. Cambridge University Press 280-282. View
  3. Yang Y, Jie Lan , Xiaochun Li (2004) Study on Bulk Aluminum Matrix Nanocomposite Fabricated by Ultrasonic Dispersion of Nano-sized SiC Particles in Molten Aluminum Alloy. Materials Science and Engineering A 380: 378- 383. View
  4. Hassan SF, Gupta M (2005) Development of high performance magnesium nano-composite using nano Al2O3 as reinforcement. Materials Science and Engineering A 392: 163-168. View
  5. Lu L, Lai MO, Liang W (2004) Magnesium nanocomposite via mechanochemical milling. Composites Science and Technology 64: 2009-2014. View
  6. Ma ZY, Tjong SC, Li YL (1999) The performance of aluminium-matrix composites with nanometric particulate Si–N–C reinforcement. Composites Science and Technology 59: 263-270. View
  7. Zhang DL, Liang J, Wu J (2004) Erratum to “Processing Ti3Al–SiC nanocomposites using high energy mechanical milling. Materials Science and Engineering A 375-377: 911-916. View
  8. Slipenyuk A, Kuprin V, Milmana Y, Spowart JE, Miracle DB (2004) Materials Science and Engineering A 381: 165-170. View
  9. Slipenyuk A, Kuprin V, Milman Y, Goncharuk V, Eckert J (2006) Properties of P/M processed particle reinforced metal matrix composites specified by reinforcement concentration and matrix-to-reinforcement particle size ratio. Acta Materialia 54: 157-166. View
  10. Bhanu Prasad VV, Bhat BVR, Mahajan YR, Ramakrishnan P(2002) Structure–property correlation in discontinuously reinforced aluminium matrix composites as a function of relative particle size ratio. Materials Science and Engineering A 337: 179-186. View
  11. Hashim J, Looney L, Hashmi MSJ (2002) Particle distribution in cast metal matrix composites-Part I. Journal of Materials Processing Technology 123: 251-257. View
  12. Ganguly P, Poole WJ (202) Characterization of reinforcement distribution in homogeneity in metal matrix composites. Materials Science and Engineering A 332: 301-310. View
  13. Zhao N, Nash P, Yang X (2005) The effect of mechanical alloying on SiC distribution and the properties of 6061 aluminum composite. Journal of Materials Processing Technology 170: 586-592. View
  14. Fogagnolo JB, Ruiz-Navas EM, Robert MH, Torralba JM (2002) 6061 Al reinforced with silicon nitride particles processed by mechanical milling. Scripta Materialia 47: 243-248. View
  15. Fogagnolo JB, Velasco F, Robert MH, Torralba JM (2002) Effect of mechanical alloying on the morphology, microstructure and properties of aluminium matrix composite powders. Materials Science and Engineering A 342: 131-143. View
  16. Zhang DL (2004) Processing of advanced materials using high-energy mechanical milling. Progress in Materials Science 49: 537-560. View
  17. Lu L, Lai MO, Ng CW (1998) Enhanced mechanical properties of an Al based metal matrix composite prepared using mechanical alloying. Materials Science and Engineering A 252: 203-211. View
  18. Csanady A, Sajo I, Szalay JLA, Papp K, Balaton G, et al. (2006) Al–Pb nanocomposites made by mechanical alloying and consolidation. Current Applied Physics 6: 131-134. View
  19. Ferkel H, Mordike BL (2001) Magnesium strengthened by SiC nanoparticles. Materials Science and Engineering A 298: 193-199. View
  20. Lee HB, Kim SH, Kang SW, Han YH (2003) Characterisation of mechanically alloyed Ti–Al–B nanocomposite consolidated by spark plasma sintering. British Ceramic Transactions 102: 231-236. View
  21. Sherif El-Eskandarany M (1998) Mechanical solid state mixing for synthesizing of SiCp/Al nanocomposites. Journal of Alloys and Compounds 279: 263-271. View
  22. Naser J, Riehemann W, Ferkel H (1997) Dispersion hardening of metals by nanoscaled ceramic powders. Materials Science and Engineering A 234- 236: 467-469. View
  23. Jia DC (2000) Influence of SiC particulate size on the microstructural evolution and mechanical properties of Al–6Ti–6Nb matrix composites. Materials Science and Engineering A 289: 83-90. View
  24. Tang F, Hagiwara M, Schoenung JM (2005) Microstructure and tensile properties of bulk nanostructured Al-5083/SiCp composites prepared by cryomilling. Materials Science and Engineering A 407: 306-314. View
  25. Williamson GK, Hall WH (1953) X-ray line broadening from filed aluminium and wolframL'elargissement des raies de rayons x obtenues des limailles d'aluminium et de tungsten Die verbreiterung der roentgeninterferenzlinien von aluminium- und wolframspaenen. Acta Materialia 1: 22-31. View
  26. Ortiz AL, Shaw L (2004) X-ray diffraction analysis of a severely plastically deformed aluminum alloy, Acta Materialia 52: 2185-2197. View
  27. Suryanarayana C (2001) Mechanical alloying and milling. Progress in Materials Science 46: 1-184. View
  28. Chung KH, He J, hin DH, Schoenung JM (2003) Mechanisms of microstructure evolution during cryomilling in the presence of hard particles. Materials Science and Engineering A356: 23-31. View
  29. Kang YC, Chan SL (2004) Tensile properties of nanometric Al2O3 particulatereinforced aluminum matrix composites. Materials Chemistry and Physics 85: 438-443. View
Best viewed in Mozilla Firefox, Google Chrome, Safari, Above IE 9.0 version
Privacy Policy | Copyright & Permissions
Copyright © 2013-2024 Graphy Publications, All Rights Reserved.