Screen Wall Fire Resistance Investigation
Autor: | V. E. Fadeev, Tatiana Eremina, Dmitry Korolchenko |
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Rok vydání: | 2021 |
Předmět: |
fire-proof material
Materials science fire barriers fire safety Computer simulation Geography Planning and Development 0211 other engineering and technologies 02 engineering and technology Building and Construction Fire safety Engineering (General). Civil engineering (General) Finite element method Urban Studies 020303 mechanical engineering & transports HT165.5-169.9 0203 mechanical engineering 021105 building & construction Thermal engineering fire tests Fire resistance screen wall TA1-2040 Composite material City planning |
Zdroj: | Frontiers in Built Environment, Vol 6 (2021) |
ISSN: | 2297-3362 |
Popis: | The assessment of fire resistance for building constructions has been carried out by the solution of the heat engineering problem for heating up building structures under the conditions of non-stationary heat exposure with standard fire conditions. The finite element method is used as the solution method. Numerical simulation of heating of considered building structures under fire conditions was carried out using the Ansys Mechanical computer complex, which allows for a thermal engineering design to be calculated on the basis of its software model. The resulting functional dependence allows for determining the actual fire resistance of Pf depending on the thickness of sheets δ of the outer skin made of the basalt fire-proof material, as well as the geometric parameters of the protective screen (δ) depending on the required fire resistance from the condition of compliance with the requirements of constructive fire safety (Pf > Preq). Experimental studies to determine the fire resistance for membrane wall structures showed that an increase in temperature on its unheated surface vs. structure temperature prior to testing more than 180° С (195°С) occurs not earlier than 31 min. Upon reaching the critical temperatures on the unheated surface of the membrane wall structure independing on its thickness, the fire resistance limits REI 30-REI 120 are reached. |
Databáze: | OpenAIRE |
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