Failure design of high-rise concrete panels under fire loading

Jeremy Bleyer; Duc Toan Pham; Patrick De Buhan

doi:10.1680/eacm.14.00028

Failure design of high-rise concrete panels under fire loading

Jeremy Bleyer
, Duc Toan Pham
, Patrick De Buhan

Université Paris-Est
Université Gustave Eiffel

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

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, modelled as a plate, as a function of temperature gradient across the wall thickness. Second, for analysing 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 plate finite-element yield design computations associated with non-linear optimisation schemes, and a first illustrative application is performed leading to first conclusive results regarding structural fire safety.

langue originale	Anglais
Pages (de - à)	178-185
Nombre de pages	8
journal	Proceedings of the Institution of Civil Engineers: Engineering and Computational Mechanics
Volume	168
Les DOIs	https://doi.org/10.1680/eacm.14.00028
état	Publié - 1 déc. 2015
Modification externe	Oui

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title = "Failure design of high-rise concrete panels under fire loading",

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, modelled as a plate, as a function of temperature gradient across the wall thickness. Second, for analysing 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 plate finite-element yield design computations associated with non-linear optimisation schemes, and a first illustrative application is performed leading to first conclusive results regarding structural fire safety.",

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AU - De Buhan, Patrick

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N2 - 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, modelled as a plate, as a function of temperature gradient across the wall thickness. Second, for analysing 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 plate finite-element yield design computations associated with non-linear optimisation schemes, and a first illustrative application is performed leading to first conclusive results regarding structural fire safety.

AB - 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, modelled as a plate, as a function of temperature gradient across the wall thickness. Second, for analysing 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 plate finite-element yield design computations associated with non-linear optimisation schemes, and a first illustrative application is performed leading to first conclusive results regarding structural fire safety.

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JO - Proceedings of the Institution of Civil Engineers: Engineering and Computational Mechanics

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ER -

Failure design of high-rise concrete panels under fire loading

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