American Journal of Materials Synthesis and Processing
Volume 1, Issue 1, May 2016, Pages: 1-9
Received: Mar. 7, 2016;
Accepted: Mar. 13, 2016;
Published: May 9, 2016
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Shamim Haidar, Department of Mechanical Engineering, Aliah University, Kolkata-156, West Bengal, India
Sudipta Roy, Department of Mechanical Engineering, Academy of Technology, Adisaptagram, Hoogly, Wesst Bengal, India
Joyjeet Ghose, Department of Production Engineering, Birla Institute of Technology, Mesra, Ranchi, India
Aluminium foams, which may replace all the energy absorbing materials in near future, are produced by melting Aluminium alloy (LM6) containing blowing agent(s) and with continuous stirring of the melt. TiH2 is a known blowing agent for this. As TiH2 begins to decompose into Ti and gaseous H2 when heated above about 738K (465°C), large volumes of hydrogen gas are rapidly produced, creating bubbles that leads to manufacture of closed cell foam. Cellular materials like this produced foams has to be machined into pieces with desired shape for further investigation. In order to define the Compressive and impact properties of this material, LS-DYNA modeling and crashing simulation, which uniquely defines the mechanical behavior of this modified Al-MMC foam has been discussed in details.
Software Simulation for Mechanical Properties of Aluminium MMC Foam, American Journal of Materials Synthesis and Processing.
Vol. 1, No. 1,
2016, pp. 1-9.
Gibson, L. J., and Ashby, M. F., 1997, Cellular solids, Cambridge University Press.
Ashby, M. F., Evans, A. G., Fleck, N. A., Gibson, L. G., Hutchinson, J. W., and Wadley, H. J. N. G., 2000, Metal foams: A Design Guide, Butterworth – Heinemann, Boston.
Daxner T, Bo¨hm HJ, Seitzberger M, Rammerstorfer FG. Modelling of cellular metals. In: Degischer H-P, Kriszt B, editors. Handbook of cellular metals. Weinheim: Wiley-VCH; 2002. p. 245–80.
Degischer HP, Kriszt B. Handbook of cellular metals. Weinheim: Wiley-VCH; 2002.
Andrews, E., Sanders, W., and Gibson, L. J., 1999, “Compressive and tensile behaviour of aluminum foams,” Materials Science and Engineering, A270, pp 113–124.
Simone, A. E., and Gibson, L. J., 1998, “Aluminum foams produced by liquid state processes,” Acta Mater, 46, pp 3109–3123.
Lu, T. J., and Ong, J. M., 2001, “Characterization of close-celled cellular aluminum alloys,” J Mater Sci, 36, pp 2773–2786.
Tzeng, S. C., and Ma, W. P., 2006, “A novel approach to manufacturing and experimental investigation of closed-cell Al foams,” Int J Adv Manuf Technol, 28, pp 1122–1128.
Grenestedt, J. L., 1998, “Influence of wavy imperfections in cell walls on elastic stiffness of cellular solids,” J Mech Phys Solids, 46, pp 29–50.
B. Matijasevic-Lux, et al., Modification of titanium hydride for improved aluminium foam manufacture, Acta Materialia, 54 (2006) 1887–1900.
Sutradhar G. & Kumar S., “Metallic Foam – A Potential Material for the Future”, Indian Foundry Journal, Vol. 54, No.2, Feb. 2008.
Ghose J, Sharma V, Kumar S., “Compressive behavioral analysis of Al-MMC foam”, International Journal of Industrial and production engineering & Technology, Vol 1, No. 1 (2011), pp 35-43.
Mukai, T., Kanahashi, H., Miyoshi, T., Mabuchi, M., Nieh, T. G., and Higashi, K. 1999. Experimental Study of Energy Absorption in A Close-Celled Aluminum Foam Under Dynamic Loading. Scripta Materialia. Vol. 40, No. 8, pp. 921–927.
Reid, S. R. and Peng, C., 1997, Dynamic uniaxial crushing of wood. International Journal of Impact Engineering. 19(5-6): p. 531-570.
S Haidar, S. C. Mandal, G. Sutradhar, “Electrical Conductivity of Aluminium-SiCp foam by Stir-casting Technique Using Dual Foaming Agent”; International Journal for Research in Emerging Science and Technology, Vol- 2, Issue -2, (2015) pp 62-67.
S. Haidar, J. Ghose, G. Sutradhar, “Synthesis and Compressive Characterization of Aluminium-SiCp Composite foam by Stir-casting Technique Using Dual Foaming Agent”; International Journal of Advanced Information Science and Technology, Vol-36, No-36, (2015) pp 1-6.
S Haidar, S Ansary and A Rahman, “Production and Compressive Characterization of Aluminium MMC Foam Manufactured Using Dual Foaming Agents”, IOP conf. Series: Materials Science and Engineering 115 (2016) 012030.
LS-DYNA Manual, volume 2971R600.