Mobile QR Code QR CODE
Export citation EndNote
1 
1.GSA, Progressive Collapse Analysis and Design Guidelines for New Federal Office Buildings and Major Modernization, U.S General Services Administration, 2003.Google Search
2 
2.DoD, Design of Buildings to Resist Progressive Collapse (UFC 4-023-03), U.S Department of Defense, 2010.Google Search
3 
3.Iribarren, S., Berke, P., Boulillard, Ph., and Massart, J., “Investigation of the Influence of Design and Material Parameters in the Progressive Collapse Analysis of RC Structures”, Engineering Structures, Vol. 33, 2011, pp. 2805-2820.DOI
4 
4.Kim, J. An D., “Evaluation of Progressive Collapse Potential of Steel Moment Frames Considering Catenary Action”, The Structural Design of Tall and Special Buildings, Vol. 18, 2009, pp. 455-465.DOI
5 
5.Mohamed, A., “Assessment of Progressive Collapse Potential in Corner Floor Panels of Reinforced Concrete Buildings”, Engineering Structures, Vol. 31, 2009, pp. 749-757.DOI
6 
6.Tsai, H. and Lin, H., “Dynamic Amplification Factor for Progressive Collapse Resistance Analysis of an RC Building”, The Structural Design of Tall and Special Buildings, Vol. 18, 2009, pp. 539-557. Google Search
7 
7.Zukas, A., Introduction to Hydrocodes, Elsevier, UK, 2004, pp. 313.Google Search
8 
8.Jayasooriya, R., Thambiratnam, P., Perera, J., and Kosse, V., “Blast and Reidual Capacity Analysis of Reinforced Concrete Framed Buildings”, Engineering Structures, Vol. 33, 2011, pp. 3483-3495.DOI
9 
9.Kelliher, D. and Sutton-Swaby, K., “Stochastic Representation of Blast Load Damage in a Reinforced Concrete Buildings”, Structural Safety, Vol. 34, 2012, pp. 407-417.DOI
10 
10.Luccioni, M., Ambrosini, D., and Danesi, F., “Analysis of Building Collapse under Blast Loads”, Engineering Structures, Vol. 26, 2004, pp. 63-71.DOI
11 
11.Shi, Y., Li, X., and Hao, H., “A New Method for Progressive Collapse Analysis of RC Frame under Blast Loading”, Engineering Structures, Vol. 32, 2010, pp. 1691-1703.DOI
12 
12.Kim, H. S. and Park, J. P., “An Evaluation of Blast Resistance Performance of RC Columns According to the Shape of Cross Section”, Journal of Computational Structural Engineering Institute of Korea, Vol. 23, No. 4,  2010, pp. 387-394.Google Search
13 
13.Kim, H. S. and Lee, J. Y., “An Evaluation of Blast Resistance Performance of RC Columns by Using P-M Interaction Diagram”, Journal of Architectural Institute of Korea, Vol. 27, No. 10, 2011, pp. 47-54.Google Search
14 
14.Fairlie, G., “Efficient Analysis of High Explosive Air Blast in Complex Urban Geometries Using the AUTODYN-2D & 3D Hydrocodes”, Analytical and Exprimental Methods, Proceedings of the 15th Int. Symposium on the Military aspects of Blast and Shock, Banff, Canada, 1997.Google Search
15 
15.Fairlie, G., “The Numerical Simulation of High Explosives using AUTODYN-2D & 3D, Proceedings of the Explo ‘98”, Institute of Explosive Engineers 4th Biannual Symposium, 1998.Google Search
16 
16.Zhao, F., Chen, Y., Wang, Y., and Lu, J., “Damage Mechamism and Response of Reinforced Concrete Containment Structure under Internal Blast Loading”, Theoretical and Applied Fracture Mechanics, Vol. 61, 2012, pp. 12-20.DOI
17 
17.Deng, G., “Research on Internal explosive Loadings and Blast Resistant Characteristics of Discrete Multi-layered Explosion Containment Vessels”, Journal of Pressure Equipment and Systems, Vol. 6, 2008, pp. 217-224.Google Search
18 
18.Clutter, K., Mathis, T., and Stahl, W., “Modeling Evironmental Effects in the Simulation of Explosion Events”, International Journal of Impact Engineering, Vol. 34, 2007, pp. 973-989. Google Search
19 
19.Zheng, Y., Deng, G., Chen, Y., Sun, G., Hu, Y., Zhao, L., and Li, Q., “Experimental Investigation of Discrete Multilayered Vessels under Internal Explosion”, Combustion, Explosion, and Shock Waves, Vol. 42, 2006, pp. 617-622.DOI
20 
20.Kim, H. S., Ahn, H. S., and Ahn, J. G., “Erosion Criteria for the Blast Analysis of Reinforcement Concrete Members”, Journal of Architectural Institute of Korea, Vol. 30, No. 3, 2014, pp. 21-28.Google Search
21 
21.Cho, H. B., Kim, J. J., Lee, J. H., Shin, J. K., Jeong, Y., and Kim, G. Y., “Evaluation on the Blast-Resistant Performance of Fiber Reinforced Concrete Box Structures by Contact Explosion and Pressure”, Journal of 2013 Spring Conference of Korea Concrete Institute, 2013, pp. 369-370.Google Search
22 
22.Kinney, G. and Graham, K., Explosive Shocks in Air, U.S, 1985, pp. 137.DOI
23 
23.Mays, G. and Smith, P., Blast Effect on Buildings, UK, 1995, pp. 40.Google Search
24 
24.DoD, Structures to Resist the Effects of Accidental Explosions (UFC 3-340-02), U.S Department of Defense, 2008.Google Search
25 
25.Smith, P.D., Hetherington J G, Blast and ballistic loading of structure, Laxton's, Great Britain, 1994, pp. 336.Google Search