Share:


Calculation methods of high temperature distribution within structural components and application of these methods to fire resistance assessment /Aukštų temperatūrų pasiskirstymo statybinėse konstrukcijose skaičiavimo būdai ir jų taikymo analizė įvertinant atitvarų atsparumą ugniai

    Romualdas Mačiulaitis Affiliation
    ; Kęstutis Lukošius Affiliation

Abstract

Fire resistance of a building structure is one of important properties which describes the behaviour of the structure exposed to fire. Performance based on codes allows to use calculation methods. Given a satisfactory characterisation of the heat exposure, the designer may then compute how quickly temperatures will increase at various sections within the structural component. There are many calculation methods. They can divided into three groups (Fig 1): using experimental data, using both temperature conduction process and non-stationary thermal conduction. Thermal conduction, temperature conduction and thermal capacitance are general properties for temperature prediction methods. Usually building materials have thermal characteristics for normal environment, which can not exactly describe material properties at high temperatures. But many calculation methods lack accurate thermal characteristics describing building material properties at high temperatures. This article is intended for the analysis of this question.


Article in Lithuanian.


First Published Online: 30 Jul 2012

Keyword : -

How to Cite
Mačiulaitis, R., & Lukošius, K. (2001). Calculation methods of high temperature distribution within structural components and application of these methods to fire resistance assessment: /Aukštų temperatūrų pasiskirstymo statybinėse konstrukcijose skaičiavimo būdai ir jų taikymo analizė įvertinant atitvarų atsparumą ugniai. Journal of Civil Engineering and Management, 7(5), 391-396. https://doi.org/10.3846/13921525.2001.10531760
Published in Issue
Oct 31, 2001
Abstract Views
463
PDF Downloads
409
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.