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In this study, high performance magnesium-yttria nanocomposite’s room temperature, strength and ductility were significantly enhanced by the dispersion of nano-sized nickel particles using powder blending and a microwave sintering process. The strengthening effect of the dispersed nano-sized nickel particles was consistent up to 100°C and then it gradually diminished with further increases in the test temperature. The ductility of the magnesium-yttria nanocomposite remained unaffected by the dispersed nano-sized nickel particles up to 100°C. Impressively, it was enhanced at 150°C and above, leading to the possibility of the near net shape fabrication of the nanocomposite at a significantly low temperature.
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Tom
Strony
1411--1415
Opis fizyczny
Bibliogr. 14 poz., rys., tab., wykr.
Twórcy
autor
- King Fahd University of Petroleum & Minerals, Department of Mechanical Engineering, P.O. Box 1061, Dhahran 31261, Kingdom Of Saudi Arabia
autor
- Technology Development Engineer, Ite College Central, H1-01, 2 Ang Mo Kio Drive, Singapore 567720
autor
- King Fahd University of Petroleum & Minerals, Department of Mechanical Engineering, P.O. Box 1061, Dhahran 31261, Kingdom Of Saudi Arabia
autor
- King Fahd University of Petroleum & Minerals, Department of Mechanical Engineering, P.O. Box 1061, Dhahran 31261, Kingdom Of Saudi Arabia
autor
- National University Of Singapore, Department Of Mechanical Engineering, 9 Engineering Drive 1, Singapore 117576
Bibliografia
- [1] K. U. Kainer, Magnesium – Alloys and Technology, Wiley-VCH Verlag GmbH & Co., Munich, (2003).
- [2] R. Unverricht, V. Peitz, W. Riehemann, H. Ferkel, Dispersion-strengthening of magnesium by nanoscaled ceramic powder. In Proc. of Conf. on Magnesium Alloys and Their Applications, Wolfsburg, 327-332, Germany1998.
- [3] K. Ponappa, S. Aravindan, P. V. Rao, Grinding of magnesium/ Y2O3 metal matrix composites, Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture 226 (10), 1675-1683 (2012).
- [4] B. Q. Han, D. C. Dunand, Microstructure and Mechanical Properties of Magnesium Containing High Volume Fractions of Yttria Dispersoids. Mat. Sci. Eng. A. 277, 297-304. (2000).
- [5] S. F. Hassan, M. Gupta, Development of Nano-Y2O3 Containing Magnesium Nanocomposites Using Solidification Processing. J. Alloy. Comp. 429, 176-183 (2007).
- [6] S. F. Hassan, M. Gupta, Development and Characterization of Ductile Mg/Y2O3 Nanocomposites. J. Eng. Mat. Tech. 129, 4 26-467 (2007).
- [7] K. S. Tun, M. Gupta, Improving Mechanical Properties of Magnesium Using Nano-Yttria Reinforcement and Microwave Assisted Powder Metallurgy Method. Comp. Sci. Tech. 67, 2657-2664 (2007).
- [8] K. S. Tun, M. Gupta, Development of magnesium/(yttria + nickel) hybrid nanocomposites using hybrid microwave sintering: Microstructure and tensile properties, J. Alloy. Comp. 487, 76-82 (2009).
- [9] Nayeb-Hashemi, J. B. Clark, The Mg-Ni (Magnesium-Nickel) System, Bulletin of Alloy Phase Diagrams 6 (3), 238-244 (1985).
- [10] Y. Sun, H. Choi, H. Konishi, V. Pikhovich, R. Hathaway, Li. X. Chen, Effect of core-shelled nanoparticles of carbon-coated nickel on magnesium. Mater. Sci. Eng. A 546, 284-290 (2012).
- [11] S. F. Hassan, M. Gupta, Development of high strength magnesium based composites using elemental nickel particulates as reinforcement. J. Mater. Sci. 37 (12), 2467-2474 (2002).
- [12] A. Buch, Pure metals properties: a scientific-technical handbook. ASM International, Ohio (1999).
- [13] R. W. Cahn, Physical Metallurgy, North-Holland Publishing Company, Netherlands (1970).
- [14] G. V. Raynor, The Physical Metallurgy of Magnesium and Its Alloys, Pergamon Press, New York, (1959).
Uwagi
EN
1. The authors would like to acknowledge the support provided by King Fahd University of Petroleum and Minerals (KFUPM) for supporting this research effort.
PL
2. Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-ebf3344a-7161-48d0-bd61-3adf98d76de2