1. Integrated nonlinear structural simulation of composite buildings in fire.
- Author
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Orabi, Mhd Anwar, Khan, Aatif Ali, Jiang, Liming, Yarlagadda, Tejeswar, Torero, Jose, and Usmani, Asif
- Subjects
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TALL buildings , *FUSION reactor blankets , *COMPOSITE structures , *HEAT transfer , *THERMAL analysis , *SIMULATION methods & models , *COMPUTER simulation - Abstract
• Open-source system for integrated simulation of structures in fire. • Coupled CFD analysis with FEM analysis with an automatic HT component. • Allowance for model building in CAD/BIM and transfer into an OpenSees using a GUI. • The HT analysis was validated against recent experimental data and EC predictions. • The Cardington large compartment test used as a demonstration for the integrated system. The collapse of several tall composite buildings over the last two decades has shown that the performance of tall, composite and complex buildings in fire is a necessary design consideration that ought to go beyond simple code compliance. To this end, several advancements in the field of numerical simulation of both the fire and the thermomechanical response of structures have been made. In isolation, the practical benefit of these advancements is limited, and their true potential is only unlocked when the results of those numerical simulations are integrated. This paper starts by showcasing recent developments in the thermal and thermomechanical analysis of structures using OpenSees. Integration of these developments into a unified simulation environment combining fire simulation, heat transfer, and mechanical analysis is then introduced. Finally, a demonstration example based on the large compartment Cardington test is used to showcase the necessity and efficiency of the developed simulation environment for thermomechanical simulation of composite structures in fire. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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