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
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
References
- 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
- Clyne TW, Whiters PJ (1993) An Introduction to Metal Matrix Composites. Cambridge University Press 280-282. View
- 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
- 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
- Lu L, Lai MO, Liang W (2004) Magnesium nanocomposite via mechanochemical milling. Composites Science and Technology 64: 2009-2014. View
- 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
- 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
- Slipenyuk A, Kuprin V, Milmana Y, Spowart JE, Miracle DB (2004) Materials Science and Engineering A 381: 165-170. View
- 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
- 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
- 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
- Ganguly P, Poole WJ (202) Characterization of reinforcement distribution in homogeneity in metal matrix composites. Materials Science and Engineering A 332: 301-310. View
- 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
- 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
- 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
- Zhang DL (2004) Processing of advanced materials using high-energy mechanical milling. Progress in Materials Science 49: 537-560. View
- 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
- 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
- Ferkel H, Mordike BL (2001) Magnesium strengthened by SiC nanoparticles. Materials Science and Engineering A 298: 193-199. View
- 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
- Sherif El-Eskandarany M (1998) Mechanical solid state mixing for synthesizing of SiCp/Al nanocomposites. Journal of Alloys and Compounds 279: 263-271. View
- 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
- 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
- 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
- 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
- Ortiz AL, Shaw L (2004) X-ray diffraction analysis of a severely plastically deformed aluminum alloy, Acta Materialia 52: 2185-2197. View
- Suryanarayana C (2001) Mechanical alloying and milling. Progress in Materials Science 46: 1-184. View
- 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
- Kang YC, Chan SL (2004) Tensile properties of nanometric Al2O3 particulatereinforced aluminum matrix composites. Materials Chemistry and Physics 85: 438-443. View