Metallic Foams, New Generation of the Environmental Friendly Materials
Subject Areas : Journal of Environmental Friendly MaterialsV. Abouei Mehrizi 1 , B. Karbakhsh Ravari 2
1 - Advanced Materials Engineering Research Center, Islamic Azad University, Karaj, Branch
2 - Advanced Materials Engineering Research Center, Islamic Azad University, Karaj, Branch
Keywords: Metallic Foams, Environmental Friendly Materials, Advance materials,
Abstract :
[1] J. Weissmüller, R. N. Viswanath, D. Kramer, P. Zimmer, R. Würschum and H. Gleiter, Sci., 300, (2003), 312.
[2] C. Park and S. R. Nutts, Mater. Sci. Eng. A, 299, (2001), 68.
[3] T. Ikeda, T. Aoki and H. Nakajima, Met. Mat. Trans, 36A, (2005), 77.
[4] J. Banhart, D. Bellmaan and H. Clemens, Acta. Mate., 49, (2001), 3409.
[5] S. K. Hyun and H. Nakajima, Mat. Let., 57, (2003), 3149.
[6] B. Bauer, S. Kralj and M. Bušić, Tehnički vjesnik 20, 6, (2013), 1095.
[7] J. Banhart, J. Ind. Foundry, 51, (2005), 36.
[8] A. M. Hodeg and D. C. Dunand, Intermetallics, 9, (2001), 581.
[9] W. Deqing and S. Ziyuan, Mater. Sci. Eng. A, 361, (2003), 45.
[10] T. Wada and A. Inoue, Mater. Trans, 44, (2003), 2228.
[11] D. Weaire, Adv. Eng. Mater., 4, (2002), 723.
[12] S. K. Hyun and H. Nakajima, Mater. Sci. Tech., 74, (2004), 667.
[13] J. Banhart, N. A. Fleck and A. Mortensen, Cellular Metals: Manufacture, Properties, Applications, MITVerlag, Berlin, (2003).
[14] H. P. Degischer amd B. Kriszt, Handbook of Cellular Metals, Wiley VCH,Weinheim, (2002).
[15] D. K. Rajak, L. A. Kumaraswamidhas and S. Das, Mater. Sci. Technol., 32, (2016), 13, 1338.
[16] Y. An, S. Yang, E. Zhao and Z. Wang, Mater. Manuf. Processes, 33, 5, (2018), 528.
[17] J. Grabian, Arch. Foundry Eng., 11(1), (2011), 27.
[18] P. Malinowski, J. S. Suchy and J. Jakubski, Arch. Metall. Mater., 58(3), (2013), 965.
[19] K. Gawdzinska, Arch. Metall. Mater., 58(3), (2013), 659.
[20] I. Telejko, H. Adrian and B. Guzik, Arch. Metall. Mater., 58(1), (2013), 83.
[21] J. Szajnar, M. Cholewa, M. Stawarz, T. Wróbel, W. Sebzda, B.Grzesik and M. Stepien, Arch. Foundry Eng., 10(1), (2010), 175.
[22] M. Moradi, Open Access Dissertations, (2011), 481.
[23] Y. Du, A. B. Li, X. X. Zhang, Z. B. Tan, R. Z. Su F. Pu and L. Geng, Mater. Lett., 148, (2015), 79.
[24] S. Sowmiy, P. Nallanukalab, J. Anburaj and B. Simhachalam, Mat. Today, 5 9, 3, (2018), 2036.
[25] J. Jayaraj, B. J. Park, D. H. Kim, W.T. Kim and E. Fleury, Scripta Mater., (2006), 55, 1063.
[26] M. Kolluri, M. Mukherjee, F. García-Moreno, J. Banhart and U. Ramamurty, Acta Mater., (2008), 56, 1114.
[27] L. Zhibin, X. Chen, B. Jiang and F. Lu, Compos. Struct., 145, (2016), 142.
[28] T. Fujita, L. Qian, K. Inoke and M. Chen, in the proceedings of the 16th Int.Microscopy Congress, Sapporo, Japan, 3-8 , (2006), 1864.
[29] K. Gawdzinska and M. Gucma, Arch. Metall. Mater. , (2015), 60, 1.
[30] M. F. Ashby, A. G. Evans, N. A. Fleck, L. J. Gibson, J. W. Hutchinson and H. N. G. Wadley, Metal Foams: A Design Guide, Butterworth-Heinemann, Woburn, MA, (2000).
[31] V. C. Srivastava and K. L. Sahoo, Mater. Sci. -Poland, Vol. 25, No. 3, (2007).
[32] J. Lázaro, E. Solórzano, M. A. Rodríguez Pérez and F. García-Moreno, J. Mater. Sci., 50, 8, (2015), 3149.
[33] C. Girolamo, G. Dodbiba and M. Elisa Tata Procedia Structural Integrity, 2, (2016), 2277.
[34] A. H. Brothers and D. C. Dunand, Mat. Sci. Eng., A,489, (2008), 439.
[35] M. Mahadev, C. G. Sreenivasa and K. M. Shivakumar, IOP Conf. Series: Mater. Sci. Eng., 376, (2018).
[36] A. S. Antenucci, V. Guarino, V. Tagliaferri and N. Ucciardello. Mater. Des., 59, (2014), 124.
[37] Advanced Materials, Metal Foam Market Size & Analysis, Global Industry Report, 2014-2025, Market Research Report, Oct, (2017).
[38] Global Aluminum Foam Market Insights Report, (2019), September.
[39] Al Foam Market: Global Industry Analysis 2013 - 2017 and Opportunity Assessment; 2018 – 2028, Future Marketing Insight, November (2019), REP-GB-8402
[40] Metallic Foam Market: Future Growth and Challenges Analyzed, Market Report, August, (2019).
