- Du, H.; Li, Z. “Numerical Analysis of Dynamic Behavior of RC Slabs Under Blast Loading”; Trans. Tianjin Univ. 2009, 15, 61-64.##
- Chang, K.Y.; Hwang, S.J. “Practical Estimation of Two-way Slab Deflections”; J. Struct. Eng. 1996, 122, 150-159.##
- Rong, H.C.; Li, B. “Deformation-controlled Design of Reinforced Concrete Flexural Members Subjected to Blast Loadings”; J. Struct. Eng. 2008, 134, 1598-1610.##
- El-Dakhakhni, W. W.; Changiz Rezaei, S. H.; Mekky, W. F.; Razaqpur, A. G. “Response Sensitivity of Blast-Loaded Reinforced Concrete Structures to the Number of Degrees of Freedom”; Can. J. Civ. Eng. 2009 , 36, 1305-1320.##
- El-Dakhakhni, W. W.; Mekky, W. F.; Rezaei, S. C. “Validity of SDOF Models for Analyzing Two-way Reinforced Concrete Panels Under Blast Loading”; J. Perform Constr. Fac. 2010, 24, 311-325.##
- Muhamad, R.; Ali, M. M.; Oehlers, D.; Sheikh, A. H. “Load-slip Relationship of Tension Reinforcement in Reinforced Concrete Members”; Eng. Struct. 2011, 33, 1098-1106.##
- Carta, G.; Stochino, F. “Theoretical Models to Predict the Flexural Failure of Reinforced Concrete Beams Under Blast Loads”; Eng. Struct. 2013, 49, 306-315.##
- Low, H. Y.; Hao, H. “Reliability Analysis of Reinforced Concrete Slabs Under Explosive Loading”; Struct. Saf. 2001, 23, 157-178.##
- Stochino, F. “RC Beams Under Blast Load: Reliability and Sensitivity Analysis”; Eng. Fail. Anal. 2016, 66, 544-565.##
- Stochino, F.; Carta, G. “SDOF Models for Reinforced Concrete Beams Under Impulsive Loads Accounting for Strain Rate Effects”; Nucl. Eng. Des. 2014, 276, 74-86.##
- Hao, H.; Hao, Y.; Li, J.; Chen, W. “Review of the Current Practices in Blast-Resistant Analysis and Design of Concrete Structures”; Adv. Struct. 2016, 19, 1193-1223.##
- Kristoffersen, M.; Pettersen, J. E.; Aune, V.; Børvik, T. “Experimental and Numerical Studies on the Structural Response of Normal Strength Concrete Slabs Subjected to Blast Loading”; Eng. Struct. 2018, 174, 242-255.##
- Ebrahimi, H.; Someh, L. K.; Norato, J.; Vaziri, A. “Blast-Resilience of Honeycomb Sandwich Panels”; Int. J. Mech. Sci. 2018, 144, 1-9.##
- Qi, C.; Remennikov, A.; Pei, L. Z.; Yang, S.; Yu, Z. H.; Ngo, T. D. “Impact and Close-In Blast Response of Auxetic Honeycomb-Cored Sandwich Panels: Experimental Tests and Numerical Simulations”; Compos. Struct. 2017, 180, 161-178.##
- Zhao, C.; Lu, X.; Wang, Q.; Gautam, A.; Wang, J.; Mo, Y. L. “Experimental and Numerical Investigation of Steel-Concrete (SC) Slabs Under Contact Blast Loading”; Eng. Struct. 2019, 196, 109337.##
- Ghalehnovi, M.; Yousefi, M.; Karimipour, A.; de Brito, J.; Norooziyan, M. “Investigation of the Behaviour of Steel-Concrete-Steel Sandwich Slabs with Bi-Directional Corrugated-Strip Connectors”; Appl. Sci. 2020, 10, 8647.##
- Golmohammadi, M.; Ghalehnovi, M.; Yousefi, M. “Experimental Investigation of Steel-Concrete-Steel Slabs with Stud Bolt Connectors Subjected to Punching Loading”; Amirkabir Journal of Civil Engineering. 2019, 3, 93-106.##
- Meng, L.; Wang, Y.; Zhai, X. “Modeling and Dynamic Response of Curved Steel–Concrete–Steel Sandwich Shells Under Blast Loading”; J. Steel Struct. 2020, 20, 1663-1681.##
- Wang, Y.; Zhai, X. “Development of Dimensionless PI Diagram for Curved SCS Sandwich Shell Subjected to Uniformly Distributed Blast Pressure”; Front. Struct. Civ. Eng. 2019, 13, 1432-1445.##
- “Structures to Resist the Effect of Accidental Explosions”; Unified Criteria UFC 3-340-02, Department of Defense, USA, 2014.##
- Hetherington, J.; Smith, P. “Blast and Ballistic Loading of Structures”; CRC Press, 2014.##
- Uddin, N. “Blast Protection of Civil Infrastructures and Vehicles Using Composites”; Woodhead Publishing, 2010.##
- Karlos, V.; Solomos, G.; Larcher, M. “Analysis of the Blast Wave Decay Coefficient Using the Kingery–Bulmash Data”; Int. J. Prot. Struct. 2016, 7, 409-429.##
- Hamzeh, M.; Khosravi, F.; Behbahani, H. P. “Investigation of Explosion Effects on the Border Concrete Tunnels”; Adv. Defence Sci. & Technol. 2017, 9, 349-358 (In Persian).##
- Seifollahi, H.; Morshed, R. “Behavior of Reinforced Concrete Slabs against the Blast Wave”; Amirkabir Journal of Civil Engineering. 2018, 687-696 (In Persian).##
- Hallquist, J. O. “LS-DYNA® Keyword User’s Manual Volume II Material Models”; Livermore, California, USA, 2013.##
- Manual, LS-DYNA Keyword User’S., and I. Volume. "Livermore Software Technology Corporation (LSTC)." Volume II: material models. Version 971, 2012.##
- Jia, H.; Yu, L.; Wu, G. “Damage Assessment of Two-Way Bending RC Slabs Subjected to Blast Loadings”; Sci. World J. Article ID 718702, 2014, 2014, 4-8.##
|