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Fire Behavior of Thermally Thin Materials in Cone Calorimeter

Marouane El Gazi, Rodolphe Sonnier, Stéphane Giraud, Marcos Batistella, Shantanu Basak, Loïc Dumazert, Raymond Hajj, Roland El Hage

2021Polymers39 citationsDOIOpen Access PDF

Abstract

In this study, a representative set of thermally thin materials including various lignocellulosic and synthetic fabrics, dense wood, and polypropylene sheets were tested using a cone calorimeter at different heat fluxes. Time-to-ignition, critical heat flux, and peak of heat release rate (pHRR) were the main parameters considered. It appears that the flammability is firstly monitored by the sample weight. Especially, while the burning rate of thermally-thin materials does never reach a steady state in cone calorimeter, their pHRR appears to be mainly driven by the fire load (i.e., the product of sample weight and effective heat of combustion) with no or negligible influence of textile structure. A simple phenomenological model was proposed to calculate the pHRR taking into account only three parameters, namely heat flux, sample weight, and effective heat of combustion. The model allows predicting easily the peak of heat release rate, which is often considered as the main single property informing about the fire hazard. It also allows drawing some conclusions about the flame retardant strategies to reduce the pHRR..

Topics & Concepts

Cone calorimeterMaterials scienceFlammabilityCalorimeter (particle physics)CombustionIgnition systemHeat fluxComposite materialSample (material)CharDetectorHeat transferMechanicsThermodynamicsOpticsPhysicsChemistryOrganic chemistryFire dynamics and safety researchFlame retardant materials and propertiesCombustion and Detonation Processes