Open Access
Issue |
MATEC Web Conf.
Volume 206, 2018
2018 The 3rd International Conference on Civil Engineering and Materials Science (ICCEMS 2018)
|
|
---|---|---|
Article Number | 01014 | |
Number of page(s) | 5 | |
Section | Civil and Structural Engineering | |
DOI | https://doi.org/10.1051/matecconf/201820601014 | |
Published online | 19 September 2018 |
- Chengqing Wu, “Research development on protection of structures blast loading at university of Adelaide” Australian journal of structural engineering(2012) 13, No.1. [Google Scholar]
- Inderpal Singh Sanhu, et al. “Study of blast wave pressure modification through rubber foam” 11th International symposium on plasticity and impact mechanics 173(2017) 570–576. [Google Scholar]
- Sanam Aghdamy, Chengqing Wu and Michael Griffith, “Simulation of Retrofitted Unreinforced Concrete Masonry Unit Walls under Blast Loading” International journal of protective structures(2013)4 No. 1. [Google Scholar]
- Mohd Fadzli Ismail, et al.” Investigation on energy absorption of aluminium foam-CFRP sandwich panel subjected to impact loading” Jurnal Teknologi (Sciences & Engineering) 75:8 (2015) 113–116. [Google Scholar]
- Ye Xia, et al., “Numerical simulation of foam-protected RC members under blast loads”, International Journal of Protective Structures(2014) 5, No. 4. [Google Scholar]
- Feng Zhu et al., “ Structural response and energy absorption of sandwich panels with an aluminium foam core under blast loading”, Advances in Structural Engineering, 11 (2008), No. 5. [Google Scholar]
- Li Shiqiang et al., “Dynamic response of sandwich spherical shell with graded metallic foam cores subjected to blast loading”, Composites: Part A56(2014) 262–271. [Google Scholar]
- C. Jayarami Reddy, V. Madhu, “Dynamic behavior of foams and sandwich panels under shock wave loading” 11th International symposium on plasticity and impact mechanics 173(2017),1627–1634. [Google Scholar]
- Schenker, A., et al. “Foam-protected reinforced concrete structures under impact: Experimental and numerical studies” J. Struct. Eng., 131(2005), 1233–1242. [CrossRef] [Google Scholar]
- Schenker, A., et al. “Full-scale field tests of concrete slabs subjected to blast loads.” Int. J. Impact Eng., 35,(2008), 184–198 [CrossRef] [Google Scholar]
- Hanssen, A. G., Enstock, L., and Langseth, M. (2002). “Close-range blast loading of aluminum foam panels.” Int. J. Impact Eng., 27(6), 593–618. [CrossRef] [Google Scholar]
- AUTODYN, Theory Manual, Revision 4.0, Century Dynamics Inc., 1998. [Google Scholar]
- AUTODYN, Theory Manual, Revision 4.0, Century Dynamics Inc., (1998). [Google Scholar]
- Chengqing Wu, Liang Huang and Deric John Oehlers “Blast Testing of Aluminum Foam–Protected Reinforced Concrete Slabs” journal of performance of constructed facilities, 25 (2011) :464–474. [CrossRef] [Google Scholar]
- AUTODYN. Remapping tutorial. California: Century dynamics; (2005) pp. 258 [Google Scholar]
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