참고문헌
- John Banhart, Metal foam production and stability, Advanced engineering materials, 9 (2006) 781-794
- Ashby MF, Evans A, Fleck NA, Gibson LJ, Hutchison JW, Wadley HNG. Metal foams: a design guide. Oxford: Butterworth Heinmann; (2000) Oxford 6-23
- Gibson LJ, Ashby MF, Cellular solids, 2nd ed. Cambridge University Press; (1997) 15-51
- Dirk Lehmhus, John Banhart, Properties of heat-treated aluminum foams; Materials science & engineering A, 349 (2003) 98-110 https://doi.org/10.1016/S0921-5093(02)00582-8
- Roberto Montanini, Measurement of strain rate sensitivity of aluminum foams for energy dissipation, Inter. J of Mechanical sciences, Vol. 47 (2005) 26-42. https://doi.org/10.1016/j.ijmecsci.2004.12.007
- Gibson LJ, Ashby MF, Cellular solids, 2nd ed. Cambridge University Press; (1997).
- Lehmhus D, Banhart. J. Properties of heat-treated aluminum foams. Matr SciEng A (2003) 349:98-110.
- Soo-Han Park, Sang-Youl Kim, Duck-Kyu Ahn, Dong-In Ha, Soon-Hyung Cho, A Study on the Viscosity and Surface Tension for Foaming Materials and the Effects of Addition Elements, Korean Journal of Materials Research, Vol.12, No.9 (2002) 729-734 https://doi.org/10.3740/MRSK.2002.12.9.729
- Bo-Young Hur, Soo-Han Park, Myeong-Hyeong Jang, Hyun Jun Park (A) Study on surface tension and viscosity of molten aluminum alloys. J.KASBIR, Vol3, No.2 (2003) 23-30
- Thaddeus B. Massalski, Binary alloy phase diagrams, American Society for Metals, (1990) Volume 1. Ac-Au to Fe-Pb
- Zhong Lijun, Wu Jinbo, Qin Jiting and Ning Qiu, in proceedings of the International Conference on Interface in Metal-Ceramics Composite, Anaheim, California, Feb 1990, (1989) 213.
- M. T. Malachevskya, and C. A. D'Ovidioa, Thermal evolution of titanium hydride optimized for aluminium foam fabrication, Scripta Materialia 12 (2009) 1-4
- Haizhi Ye, An Overview of the Development of Al-Si-Alloy Based Material for Engine Applications, JMEPEG (2003) 12: 288-297. https://doi.org/10.1361/105994903770343132
- Insu Jeon, Tadashi Asahina, The effect of structural defects on the compressive behavior of closed cell Al foam, Acta materialia, 53 (2005) 3415-3423 https://doi.org/10.1016/j.actamat.2005.04.010
- A. E. Markaki, T. W. Clyne, The Effect of cell micro structure in the deformation and fracture of aluminum based foam, Acta Mater., 49 (2001) 1677-1686 https://doi.org/10.1016/S1359-6454(01)00072-6
- R. Edwin Raj, B. S. S. Danied, Structural and Compressive Properties Correlation of Closed- cell aluminum foam. J. of Alloys and Componds, 467(2009) 553-554