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Numerical Investigations on the Influencing Factors of Rapid Fire Spread of Flammable Cladding in a High-Rise Building

Md Kamrul Hassan, Md. Delwar Hossain, Michael Gilvonio, Payam Rahnamayiezekavat, Grahame Douglas, Sameera Pathirana, Swapan Saha

2022Fire19 citationsDOIOpen Access PDF

Abstract

This paper investigates aluminium composite panels (ACPs) to understand the fire behaviour of combustible cladding systems under different fire scenarios. A fire dynamics simulator (FDS) is used to develop the numerical model of full-scale fire tests of combustible cladding systems using the procedures of the British BS 8414.1 standards. The results obtained from the FDS models are verified with test data. Seven test scenarios are investigated with four distinct parameters, i.e., cavity barrier, air-cavity gap, panel mounting (with and without joining gaps between the panels), and material combustibility qualities. A critical air-cavity gap (50–100 mm) is established at which maximum fire spread is noticed. Furthermore, variations in the cavity barrier, panel mounting, and material combustibility significantly impact the rapid fire spread of ACP cladding systems and the internal failure criterion. The results from the present study can serve as a basis for future research on the full-scale fire-test development of combustible ACPs.

Topics & Concepts

CombustibilityCladding (metalworking)Flammable liquidFire testStructural engineeringFlame spreadEngineeringFire protectionFull scaleEnvironmental scienceForensic engineeringMaterials scienceComposite materialCivil engineeringWaste managementCombustionChemistryOrganic chemistryFire dynamics and safety researchFlame retardant materials and propertiesCombustion and Detonation Processes
Numerical Investigations on the Influencing Factors of Rapid Fire Spread of Flammable Cladding in a High-Rise Building | Litcius