Numerical Simulation of Progressive Collapse for a Reinforced Concrete Building
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Numerical Simulation of Progressive Collapse for a Reinforced Concrete Building

Authors: Han-Soo Kim, Jae-Gyun Ahn, Hyo-Seung Ahn

Abstract:

Though nonlinear dynamic analysis using a specialized hydro-code such as AUTODYN is accurate and useful tool for progressive collapse assessment of a multi-story building subjected to blast load, it takes too much time to be applied to a practical simulation of progressive collapse of a tall building. In this paper, blast analysis of a RC frame structure using a simplified model with Reinforcement Contact technique provided in Ansys Workbench was introduced and investigated on its accuracy. Even though the simplified model has a fraction of elements of the detailed model, the simplified model with this modeling technique shows similar structural behavior under the blast load to the detailed model. The proposed modeling method can be effectively applied to blast loading progressive collapse analysis of a RC frame structure.

Keywords: Autodyn, Blast Load, Progressive Collapse, Reinforcement Contact.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1060737

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References:


[1] Y. Shi, H. Hao and Z. Li, "Numerical derivation of pressure-impulse diagrams for prediction of RC column damage to blast loads, International Journal of Impact Engineering," vol. 35, pp. 1213-1227, 2008.
[2] X. Bao and B. Li, "Residual strength of blast damaged reinforced concrete columns," International Journal of Impact Engineering, vol. 37, pp. 295-308, 2010.
[3] A. Mutalib and H. Hao, "Development of P-I diagrams for FRP strengthed RC columns," International Journal of Impact Engineering, vol. 38, pp. 290-304, 2011.
[4] K. Wu, B. Li and K. Tsai, "Residual axial compression capacity of localized blast-damaged RC columns," International Journal of Impact Engineering, vol. 38, pp. 29-40, 2011.
[5] Ansys, Autodyn Theory Manual, Century dynamics, 2005.
[6] Ansys, ANSYS Workbench User-s Guide, Ansys Inc., 2009.
[7] U. Nystrᛃm and K. Gylltoft, "numerical studies of the combined effects of blast and fragment loading," International Journal of Impact Engineering, vol. 36, pp. 995-1005, 2009.
[8] Department of Defense, Design of Buildings to Resist Progressive Collapse, US Department of Defense, 2010.