Fire response of a 3D multi-storey building with buckling restrained braces

Abstract: This paper investigates the performance of a three-dimensional multi-storey structure with Buckling Restrained Brace system (BRBs) under fire condition, using a sequentially coupled nonlinear thermal stress analysis. Efficiency of using BRBs in enhancing the strength and stiffness of a structural frame is compared with that of Ordinary Concentrically Bracing system (OCBs) under various fire scenarios. The proposed numerical model is verified by a series of full-scale fire tests carried out on an 8-storey struc… Show more

“…The model is exposed to a temperature increase of 100 °C. 8-node linear brick elements with incompatible modes (C3D8I elements) are employed as it has been noticed that the incompatible states formulated for this element exhibit better flexural response, thus requiring lesser mesh to reach convergence versus a normal mode linear solid element [ [23] , [24] , [25] , [26] ]. There are 64 elements in every flat rhombus and sloping region.…”

Thermally-induced responses of triaxially woven fabric composites

“…The model is exposed to a temperature increase of 100 °C. 8-node linear brick elements with incompatible modes (C3D8I elements) are employed as it has been noticed that the incompatible states formulated for this element exhibit better flexural response, thus requiring lesser mesh to reach convergence versus a normal mode linear solid element [ [23] , [24] , [25] , [26] ]. There are 64 elements in every flat rhombus and sloping region.…”

Thermally-induced responses of triaxially woven fabric composites

“…The loss of fire protection is particularly dangerous for steel structures because the high thermal conductivity associated with small profile thicknesses entails quick temperature rise in the profiles with consequent fast loss of strength and stiffness. Most of the literature involve numerical simulations on steel moment resisting frames [1][2][3] [4] and only a few of them are dedicated to buckling-restrained and conventional brace systems [5] [6]. Both developed a framework for evaluating the post-earthquake performance of steel structures in a multi-hazard context that incorporates tools that are capable of probabilistic structural analyses under fire and seismic loads.…”

Numerical‐experimental analysis of a braced steel frame subjected to fire following earthquake

Thermal fluid-structure interaction and coupled thermal-stress analysis in a cable stayed bridge exposed to fire