Open Access
MATEC Web of Conferences
Volume 17, 2014
Advanced Green Material and Technology Symposium (AGMTS 2014)
Article Number 01004
Number of page(s) 5
Published online 02 September 2014
  1. Jones, M. R., McCarthy, 2005. A. Preliminary views on the potential of foamed concrete as a structural material. Mag. Concr. Res. 57(1): p 21–31. [CrossRef]
  2. Othuman Mydin, M.A., 2011. Thin-walled steel enclosed lightweight foamcrete: A novel approach to fabricate sandwich composite. Australian Journal of Basic and Applied Sciences, 5(12): 1727–1733
  3. Kessler, H. G. 1998. Cellular lightweight concrete, Concrete Engineering International, p 56–60.
  4. Othuman Mydin, M.A., Y.C. Wang, 2011. Structural Performance of Lightweight Steel-Foamed Concrete-Steel Composite Walling System under Compression. Journal of Thin-walled Structures, 49(1): 66–76 [CrossRef]
  5. Aldridge, D., Ansell, T. 2001. Foamed concrete: production and equipment design, properties, applications and potential. In: Proceedings of one day seminar on foamed concrete: Properties, applications and latest technological developments, Loughborough University, p 1–7
  6. Mydin, M.A., Y.C. Wang, 2012. Thermal and mechanical properties of Lightweight Foamed Concrete (LFC) at elevated temperatures. Magazine of Concrete Research, 64(3): 213–224 [CrossRef]
  7. Budaiwi, I., Abdou, A., Al-Homoud, M., 2002, Variations of thermal conductivity of insulation materials under different operatingtemperatures: Impact on envelope-induced cooling load. J. of Archaeological Engineering 8 (4): p 125–132. [CrossRef]
  8. Jones, M. R. & McCarthy, 2006. A. Heat of hydration in foamed concrete: Effect of mix constituents and plastic density. Cement and Concrete Research, 36 (6): p 1032–1041. [CrossRef]
  9. Mao, C.H., Othuman Mydin, M.A., Que, X.B., 2014, Analytical model to establish the thermal conductivity of porous structure. Jurnal Teknologi 69(1): 103–111 [CrossRef]
  10. Othuman Mydin, M.A., 2013. An Experimental Investigation on Thermal Conductivity of Lightweight Foamcrete for Thermal Insulation. Jurnal Teknologi, 63(1): 43–49 [CrossRef]
  11. Othuman Mydin, M.A., Y.C. Wang, 2011. Elevated-Temperature Thermal Properties of Lightweight Foamed Concrete. Journal of Construction & Building Materials, 25(2): 705–716 [CrossRef]
  12. Huang, C. L., 1980. Pore Structure Properties of Materials, Fu-Han, Tainan, Taiwan, p 34–43.
  13. BCA, 1994. Foamed concrete: Composition and properties. Report Ref. 46.042, Slough: BCA
  14. Othuman Mydin, M.A., Y.C. Wang, 2012. Mechanical properties of foamed concrete exposed to high temperatures. Journal of Construction and Building Materials, 26(1): 638–654 [CrossRef]
  15. Soleimanzadeh, S., M.A. Othuman Mydin, 2013. Influence of High Temperatures on Flexural Strength of Foamed Concrete Containing Fly Ash and Polypropylene Fiber, International Journal of Engineering, 26(1): 365–374 [CrossRef]