A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Computational stochastic heat transfer with model uncertainties in a plasterboard submitted to fire load and experimental validation
10.1002/fam.982.abs
The paper deals with probabilistic modeling of heat transfer throughout plasterboard plates when exposed to an equivalent ISO thermal load. The proposed model takes into account data and model uncertainties. This research addresses a general need to perform robust modeling of plasterboard‐lined partition submitted to fire load. The first step of this work concerns the development of an experimental thermo physical identification data base for plasterboard. These experimental tests are carried out by the use of a bench test specially designed within the framework of this research. A computational heat transfer model is constructed using data from the literature and also the identified plasterboard thermophysical properties. The developed mean model constitutes the basis of the computational stochastic heat transfer model that has been constructed employing the nonparametric probabilistic approach. Numerical results are compared to the experimental ones. Copyright © 2008 John Wiley & Sons, Ltd.
Computational stochastic heat transfer with model uncertainties in a plasterboard submitted to fire load and experimental validation
10.1002/fam.982.abs
The paper deals with probabilistic modeling of heat transfer throughout plasterboard plates when exposed to an equivalent ISO thermal load. The proposed model takes into account data and model uncertainties. This research addresses a general need to perform robust modeling of plasterboard‐lined partition submitted to fire load. The first step of this work concerns the development of an experimental thermo physical identification data base for plasterboard. These experimental tests are carried out by the use of a bench test specially designed within the framework of this research. A computational heat transfer model is constructed using data from the literature and also the identified plasterboard thermophysical properties. The developed mean model constitutes the basis of the computational stochastic heat transfer model that has been constructed employing the nonparametric probabilistic approach. Numerical results are compared to the experimental ones. Copyright © 2008 John Wiley & Sons, Ltd.
Computational stochastic heat transfer with model uncertainties in a plasterboard submitted to fire load and experimental validation
Sakji, S. (author) / Soize, C. (author) / Heck, J.‐V. (author)
Fire and Materials ; 33 ; 109-127
2009-04-01
19 pages
Article (Journal)
Electronic Resource
English
| British Library Online Contents | 2009
| British Library Online Contents | 2008