Open AccessEffect of radiation inside square hollow section under moderate non-symmetric fire
Author(s) -
Jolanta Bączkiewicz,
Sami Pajunen,
Markku Heinisuo
Publication year - 2018
Publication title -
fire research
Language(s) - English
Resource type - Journals
ISSN - 2532-4748
DOI - 10.4081/fire.2018.42
Subject(s) - section (typography) , square (algebra) , radiation , embedding , surface (topology) , thermal radiation , distribution (mathematics) , cross section (physics) , materials science , mechanics , geometry , mathematics , physics , mathematical analysis , thermodynamics , optics , quantum mechanics , artificial intelligence , advertising , computer science , business
The temperature calculation of hollow steel sections at elevated temperatures is a well-documented and standard procedure. Through this standard procedure, the temperature can be calculated by assuming a uniform gas temperature all around the section, which is called a symmetric fire in this paper. Embedding in surrounding structures or connecting to another steel member results in non-symmetric heat distribution in the member. This non-symmetricity of the surrounding temperature may cause surface- to-surface heat radiation inside the member, thus affecting the steel section temperature distribution. This effect is considered in this paper by adopting analytical and finite element method analysis.
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