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Materials Research Innovations Volume 18, 2014 - Issue sup6: ICoSEM 2013
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Research Papers

Characteristics of hybrid microwave sintering of Zn–Al–Cu–Mg alloy

M. LutfiCorrespondence[email protected]
,
R. G. RahbariRestorative Dentistry DepartmentDentistry Faculty, University of Toronto, Toronto, ON M5G 1G6, Canada
,
M. Hamdi
,
M. Fadzil
&
F. Yusof
Pages S6-78-S6-83 | Published online: 05 Dec 2014

References

  • R. Mojaver and H. R. Shahverdi: ‘The relationship between the wear behavior and microstructure features in end chill cast Zn–27%Al alloy’, Wear, 2010, 268, 605–611.
  • E. Savary, S. Marinel, H. Colder, C. Harnois, F. X. Lefevre and R. Retoux: ‘Microwave sintering of nano-sized ZnO synthesized by a liquid route’, Powder Technol., 2011, 208, 521–525.
  • R. R. Menezes, P. M. Souto and R. H. G. A. Kiminami: ‘Microwave hybrid fast sintering of porcelain bodies’, J. Mater. Process. Technol., 2007, 190, 223–229.
  • S. Das, A. K. Mukhopadhyay, S. Datta and D. Basu: ‘Prospects of microwave processing: an overview’, Bull. Mater. Sci., 2008, 31, (7), 943–956.
  • M. S. Srinath, A. K. Sharma and P. Kumar: ‘A new approach to joining of bulk copper using microwave energy’, Mater. Des., 2011, 32, 2685–2690.
  • S.-D. Luo, J.-H. Yi, Y.-L. Guo, Y.-D. Peng, L.-Y. Li and J.-M. Ran: ‘Microwave sintering W–Cu composite: analyses of densification and microstructural homogenization’, J. Alloys Compd., 2009, 473, L5–L9.
  • S. Chockalingam and H. K. Traver: ‘Microwave sintering of β-SiAlON–ZrO2 composites’, Mater. Des., 2010, 31, 3641–3646.
  • K. Fukui, K. Kanayama, M. Katoh, T. Yamamoto and H. Yoshida: ‘Synthesis of indium tin oxide powder by solid-phase reaction with microwave heating’, Adv. Powder Technol., 2009, 20, 488–492.
  • H. Sheinberg, T. T. Meek, R. D. Blake: ‘Microwaving of normally opaque and semi-opaque substances’, US Patent 4942278, Published 17 July 1990.
  • R. Roy, D. Agrawal, J. Cheng and S. Gedevanishvili: ‘Full sintering of powdered-metal bodies in a microwave field’, Nature, 1999, 399, 668–670.
  • R. M. Ankelekar, D. K. Agrawal and R. Roy: ‘Microwave sintering and mechanical properties of PM copper steel’, Powder Metall., 2001, 44, 355–362.
  • A. Upadhyaya, G. Sethi and D. Agrawal: ‘Microwave sintering of Cu–12Sn alloy’, Sintering 2003 Conf., Penn State University, Pennsylvania, USA, September 2003.
  • S. D. Luo, M. Yan, G. B. Schaffer and M. Qian: ‘Sintering of titanium in vacuum by microwave radiation’, Metall. Mater. Trans. A, 2011, 42A, 2466–2474.
  • A. Upadhyaya, S. K. Tiwari and P. Mishra: ‘Microwave sintering of W–Ni–Fe alloy’, Scr. Mater., 2007, 56, 5–8.
  • W. L. E. Wong and M. Gupta: ‘Development of Mg/Cu nanocomposites using microwave assisted rapid sintering’, Comput. Sci. Technol., 2007, 67, 1541–1552.
  • A. Mondal, D. K. Agrawal and A. Upadhyaya: ‘Microwave heating of pure copper powder with varying particle size and porosity’, J. Microw. Power Electromagn. Energy, 2009, 43, (1), 5–10.
  • W. L. E. Wong and M. Gupta: ‘Characteristics of aluminum and magnesium based nanocomposites processed using hybrid microwave sintering’, J. Microw. Power Electromagn. Energy, 2010, 44, (1), 14–27.
  • S. M. Kazemzadeh, A. Hassanjani-Roshan, M. R. Vaezi and A. Shokuhfar: ‘The effect of microwave irradiation time on appearance properties of silver nanoparticles’, Trans. Indian Inst. Metals, 2001, 64, (3), 261–264.
  • S. Kennedy, S. Kumaran and T. Srinivasa Rao: ‘Microstructure and mechanical properties of microwave sintered austenitic stainless steel’, Trans. Indian Inst. Metals, 2001, 64, (1,2), 85–87.
  • C. Zhao, J. Vleugels, C. Groffils and P. J. Luypaert: ‘Hybrid sintering with a tubular susceptor in a cylindrical single-mode microwave furnace’, Acta Mater., 2000, 48, 3795–3801.
  • W. L. E. Wong, S. Karthik and M. Gupta: ‘Development of hybrid Mg/Al2O3 composites with improved properties using microwave assisted rapid sintering route’, J. Mater. Sci., 2005, 40, 3395–3402.
  • S. D. Luo, C. L. Guan, Y. F. Yang, G. B. Schaffer and M. Qian: ‘Microwave heating, isothermal sintering and mechanical properties of powder metallurgy titanium and titanium alloys’, Metall. Mater. Trans. A, 2013, 44A, 1842–1851.
  • K. Rajkumar and S. Aravindan: ‘Microwave sintering of copper-graphite composites’, J. Mater. Process. Technol., 2009, 209, 5601–5605.
  • D. Agrawal: ‘Microwave sintering of ceramics, composites and metallic materials and melting of glasses’, Trans. Indian Ceram. Soc., 2006, 65, (3), 129–144.
  • A. Nadjafi Maryam Negari, R. S. Mamoory, A. Simchi and N. Ehsani: ‘Determination of the physical and mechanical properties of iron-based powder materials produced by microwave sintering’, Powder Metall. Metal Ceram., 2007, 46, (9–10), 423–428.
  • M. Rahimian, N. Ehsani, N. Parvin and H. R. Bharvandi: ‘The effect of particle size, sintering temperature and sintering time on the properties of Al–Al2O3 composites made by powder metallurgy’, J. Mater. Process. Technol., 2009, 209, 5387–5393.
  • D. Agrawal: ‘Microwave sintering of metallic materials’, Proc. 2000 PM World Congress, Japan Powder Metallurgy Association, Kyoto, Japan, November 2000, 797–800.
  • Z. huang, M. Gatoh and Y. Hirose: ‘Improving sinterability of ceramics using hybrid microwave heating’, J. Mater. Process. Technol., 2009, 209, 2446–2452.

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