Formation of Layered Mg/Eutectic Composite Using Diffusional Processes at the Mg-Al Interface

Journal title

Archives of Metallurgy and Materials




No 3 September


Divisions of PAS

Nauki Techniczne


Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences




ISSN 1733-3490


Friedrich H. (2001), Research for a "new age of magnesium" in the automotive industry, J. Mater. Process. Tech, 117, 276, ; Bochenek A. (2000), Structural analysis of the MgAl5 matrix cast composites containing SiC particles, Mat. Sci. Eng, A 290, 122. ; Saravanan R. (2000), Fabrication and characterization of pure magnesium-30 vol.%SiC<sub>p</sub> particle composite, Mat. Sci. Eng, A 276, 108. ; Gupta M. (1999), Microstructure and mechanical properties of elemental and reinforced magnesium synthesized using flux-less liquid-phase process, Mat. Res. Bull, 34, 1201, ; Wang H. (2003), In situ synthesis of TiC/Mg composites in molten magnesium, Scr. Mater, 48, 1349, ; Contreras A. (2004), Mg/Ti composites manufactured by pressure-less melt infiltration, Scripta Materialia Scr. Mater, 51, 249, ; Wang H. (2004), Fabrication of TiB<sub>2</sub> and TiB<sub>2</sub>-TiC particulates reinforced magnesium matrix composites, Mat. Sci. Eng, A 372, 109. ; Hassan S. (2002), Development of a novel magnesium-copper based composite with improved mechanical properties, Mat. Res. Bull, 37, 377, ; Mizuuchi K. (2004), Processing of TiNi SMA fiber reinforced AZ31 Mg alloy matrix composite by pulsed current hot pressing, Mat. Sci. Eng, A 367, 343. ; Cortes P. (2004), Fracture properties of a fiber-metal laminates based on magnesium alloy, J. Mat. Sci, 39, 1081, ; Wong W. (2005), Using hybrid reinforcement methodology to enhance overall mechanical performance of pure magnesium, J. Mat. Sci, 40, 2875, ; Rawers J. (1993), Metal-intermetallic composites formed by reaction-sintering metal foils, J. Mat. Sci. Lett, 12, 637, ; Rawers J. (1994), Formation of sheet metal-intermetallic composites by self-propagation high-temperature reactions, J. Mat. Sci. Lett, 13, 1357, ; Alman D. (1995), Microstructural and failure characteristics of metal-intermetallic layered sheet composites, Metall. Mater. Trans, A 26, 589, ; Harach D. (2001), Microstructure evolution in metal-intermetallic laminate (MIL) composites synthesized by reactive foil sintering in air, Metall. Mater. Trans, A 32, 1493, ; Dziadoń A. (2004), Structural transformations at the Cu-Ti interface during synthesis of cooper-intermetallics layered composite, Kovové Mater, 42. ; Dziadoń A. (2009), Microstructure evolution at the Cu-Ti interface during high temperature synthesis of copper-intermetallic phases layered composite, Archives of Metallurgy and Materials, 54, 2. ; Konieczny M. (2007), Mechanical behaviour of multilayer metal-intermetallic laminate composite synthesised by reactive sintering of Cu/Ti foils, Archives of Metallurgy and Materials, 52, 4. ; Phase Equilibria, Crystallographic and Thermodynamic Data of Binary Alloys, Landolt-Börstein. New Series IV/5. Springer (1998). ; Powell G. (1964), Diffusion in the gold-indium system, Trans. Metall. AIME, 230, 694. ; Hickl A. (1975), Kinetics of phase layer growth during aluminide coating of nickel, Metall. Trans. A, 431. ; Tunca N. (1989), Intermetallic compound layer growth at the interface of solid refractory metals molybdenum and niobium with molten aluminum, Metall. Trans, A 20, 825, ; Tu P. (2001), Growth kinetics of intermetallic compounds in chip scale package solder joint, Scr. Mater, 44, 317,