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MATUŠÍKOVÁ, A. ROZEHNALOVÁ, P. GIRGLE, F. KOSTIHA, V. ŠTĚPÁNEK, P.
Originální název
An Engineering Heat and Mass Transport Model Utilized for Concrete at Fire
Typ
článek v časopise ve Scopus, Jsc
Jazyk
angličtina
Originální abstrakt
Mathematical models which can sufficiently describe processes proceeding in concrete during fire play an important role when assessing a load bearing capacity of concrete structures. In this paper a coupled heat and mass transport model based on principles of conservation of mass and energy is presented. A 2D computational solver using FEM was created to find three unknowns – a temperature, an amount of free water and a magnitude of pore pressure in concrete cross section during rapid heating. These variables, mutually connected through state equation, are necessary not only for determination the load bearing capacity of concrete element but also for prediction of concrete spalling. A parametric study of numerical results influenced by material properties of concrete (e.g. permeability, thermal conductivity) and initial conditions (e.g. relative humidity, temperature) is introduced and discussed in the end.
Klíčová slova
concrete, fire, pore pressure, free water, temperature, parametric study
Autoři
MATUŠÍKOVÁ, A.; ROZEHNALOVÁ, P.; GIRGLE, F.; KOSTIHA, V.; ŠTĚPÁNEK, P.
Vydáno
14. 6. 2017
Nakladatel
Trans Tech Publications
Místo
Switzerland
ISSN
1662-9795
Periodikum
Key Engineering Materials (web)
Ročník
738
Číslo
58
Stát
Švýcarská konfederace
Strany od
Strany do
68
Strany počet
11
BibTex
@article{BUT130594, author="Anna {Matušíková} and Petra {Rozehnalová} and František {Girgle} and Vojtěch {Kostiha} and Petr {Štěpánek}", title="An Engineering Heat and Mass Transport Model Utilized for Concrete at Fire", journal="Key Engineering Materials (web)", year="2017", volume="738", number="58", pages="58--68", doi="10.4028/www.scientific.net/KEM.738.58", issn="1662-9795" }