Failure design of high-rise concrete panels under fire loading
BLEYER ; PHAM ; DE BUHAN
Type de document
ARTICLE A COMITE DE LECTURE REPERTORIE DANS BDI (ACL)
Langue
anglais
Auteur
BLEYER ; PHAM ; DE BUHAN
Résumé / Abstract
The present contribution addresses the crucial issue of predicting the failure of high rise reinforced concrete walls subjected to fire loading conditions. A three step procedure is proposed, in which the yield design (limit analysis) method is applied on two separate levels. First, as a way for assessing the local strength properties of the wall, modeled as a plate, as a function of temperature gradient across the wall thickness. Secondly for analyzing the overall stability of the wall in its fire-induced deformed configuration on account of the previously determined strength properties. A comprehensive numerical approach is set up, based on fem-based plate yield design computations associated with non-linear optimization schemes, and a first illustrative application is performed leading to first conclusive results regarding structural fire safety.
Source
Proceedings of the ICE : Engineering and Computational Mechanics, num. 4, pp. 178-185 p.
Editeur
ICE Publishing Ltd
