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Research Article
Experimental investigation of Magnesium recovery and tensile properties of Alloys made of Aluminum-Magnesium with variation of temperature in the furnace using Plunger Technique
Birajendu Prasad Samal1
Pradyumna Kumar Das2
Rajesh Kumar Mallik3
1Professor & Head Research and Development, Nalanda Institute of Technology, Budhist Villa, Chandaka, Bhubaneswar, 754005. 23Asst. Professor, Department of Mechanical Engineering, Nalanda Institute of Technology, Budhist Villa, Chandaka, Bhubaneswar, 754005.
Published Online: July-August 2022
Pages: 123-126
Cite this article
No DOIReferences
1. R.K.Behera, B.P.Samal, et.al, Experimental investigation and fuzzy logic approach for evaluation of magnesium recovery in the
Preparation of Al-Mg alloys using modified stir casting method, Int. J. Materials Engineering Innovation, Vol. 12, No. 2, 2021,pp134-148
2. Subrat Ray Expanding Frontier of Metallic Materials for Structural Applications, IIM Metal News, Vol12 NO. 4 August 2009.
3. P.K Rohatgi, Metal-matrix Composites, Defence Science Journal, Vol.43, No 4, October 1993, pp323-349.
4. M. K. Surappa. Aluminum matrix composites: Challenges and opportunities. Sadhana February/April 2003; 28(1 & 2):319–334p.
5. A.K.Dhingra, “metal replacement by composite”, JOM 1986, Vol 38 (03), p. 17.
6. K.Upadhya, “composite materials for aerospace applications, developments in ceramic and metal matrix composites TMS publications,
1992, pp. 3-24.
7. Greg Fisher, “Composite: Engineering the ultimate material”, Am. Ceram. Soc, Bull. Vol. 63 (2), pp. 360-364.
8. T.G.Nieh, K.R. Forbes, T.C. Chou and J. Wadsworth, TMS-New Jersey, 1990, pp 85-96.
9. T. W. Clyne, An Introductory Overview of MMC System, Types and Developments, in Comprehensive Composite Materials, Vol-3;
Metal Matrix Composites, 2000, pp.1-26.
10. P.C. Maity, P.N. Chakrabarty, S.C. Panigrahi: Journal of Material Science, 1996, 31, 6377 – 6382
11. P.K. Rohatgi, R.Asthana and S. Das Int. Met Rev., Vol.31 No. (1986) P-115-139.
12. B.P. Samal, A.K.Mishra,et.al, Journal of Materials and Metallurgical Engineering Volume 3, Issue 1, ISSN: 2231 – 3818
13. Hanumanth, G.S., G.A Irons. Particle incorporation by melt stirring for the production of metal matrix composite. Journal of
Material Science.1993; 28: 2459–2465p
14. Hashim, J. The production of cast metal matrix composite by a modified stir casting Method. Journal Teknologi. 2001; 35(A), 9–20p.
15. Hashim J., l. looney, M.S.J.Hashmi. Metal matrix composites: Production by the stir Casting Method. Journal of Materials Processing
Tech. 1999; 92-93, 1–7p.
16. Hibono, A.H. Iwatsubo, H. kawajiri. Compaction Forming and Melting Experiment in Molten Aluminium of Mg Machine Waste Chips
bymixing of Mg chips, Al chips and Aluminium Melting Flux. J. Jpn. Soc. Powder Powder Metallurgy. 2008; 55(12):
17. Rohatgi P. Cast Metal Matrix Composites: Past, Present And Future. AFS Trans 2001; 01–133p
18. Suryanarayana, C., E.Ivanov, V.V.Boldyrev. The Science and Technology of Mechanical Alloying Material Science and Engineering
2001; A304-306,151–158p.
19. Wahab M. N, A. R. Daud and M. J. Ghazali. Preparation and characterization of stir cast Aluminum nitride reinforced aluminum metal
matrixcomposites.
International Journal Of Mechanical and Materials Engineering (IJMME). 2009; 4(2): 115–117p.
20. Hashim.J, L.Looney, M.S.J.Hashmi. The Wettability of SiC Particles by Molten Aluminium Alloy. Journal of Materials Processing
Tech. 2001; 119: 324–328p.
Preparation of Al-Mg alloys using modified stir casting method, Int. J. Materials Engineering Innovation, Vol. 12, No. 2, 2021,pp134-148
2. Subrat Ray Expanding Frontier of Metallic Materials for Structural Applications, IIM Metal News, Vol12 NO. 4 August 2009.
3. P.K Rohatgi, Metal-matrix Composites, Defence Science Journal, Vol.43, No 4, October 1993, pp323-349.
4. M. K. Surappa. Aluminum matrix composites: Challenges and opportunities. Sadhana February/April 2003; 28(1 & 2):319–334p.
5. A.K.Dhingra, “metal replacement by composite”, JOM 1986, Vol 38 (03), p. 17.
6. K.Upadhya, “composite materials for aerospace applications, developments in ceramic and metal matrix composites TMS publications,
1992, pp. 3-24.
7. Greg Fisher, “Composite: Engineering the ultimate material”, Am. Ceram. Soc, Bull. Vol. 63 (2), pp. 360-364.
8. T.G.Nieh, K.R. Forbes, T.C. Chou and J. Wadsworth, TMS-New Jersey, 1990, pp 85-96.
9. T. W. Clyne, An Introductory Overview of MMC System, Types and Developments, in Comprehensive Composite Materials, Vol-3;
Metal Matrix Composites, 2000, pp.1-26.
10. P.C. Maity, P.N. Chakrabarty, S.C. Panigrahi: Journal of Material Science, 1996, 31, 6377 – 6382
11. P.K. Rohatgi, R.Asthana and S. Das Int. Met Rev., Vol.31 No. (1986) P-115-139.
12. B.P. Samal, A.K.Mishra,et.al, Journal of Materials and Metallurgical Engineering Volume 3, Issue 1, ISSN: 2231 – 3818
13. Hanumanth, G.S., G.A Irons. Particle incorporation by melt stirring for the production of metal matrix composite. Journal of
Material Science.1993; 28: 2459–2465p
14. Hashim, J. The production of cast metal matrix composite by a modified stir casting Method. Journal Teknologi. 2001; 35(A), 9–20p.
15. Hashim J., l. looney, M.S.J.Hashmi. Metal matrix composites: Production by the stir Casting Method. Journal of Materials Processing
Tech. 1999; 92-93, 1–7p.
16. Hibono, A.H. Iwatsubo, H. kawajiri. Compaction Forming and Melting Experiment in Molten Aluminium of Mg Machine Waste Chips
bymixing of Mg chips, Al chips and Aluminium Melting Flux. J. Jpn. Soc. Powder Powder Metallurgy. 2008; 55(12):
17. Rohatgi P. Cast Metal Matrix Composites: Past, Present And Future. AFS Trans 2001; 01–133p
18. Suryanarayana, C., E.Ivanov, V.V.Boldyrev. The Science and Technology of Mechanical Alloying Material Science and Engineering
2001; A304-306,151–158p.
19. Wahab M. N, A. R. Daud and M. J. Ghazali. Preparation and characterization of stir cast Aluminum nitride reinforced aluminum metal
matrixcomposites.
International Journal Of Mechanical and Materials Engineering (IJMME). 2009; 4(2): 115–117p.
20. Hashim.J, L.Looney, M.S.J.Hashmi. The Wettability of SiC Particles by Molten Aluminium Alloy. Journal of Materials Processing
Tech. 2001; 119: 324–328p.
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