Influence of Density on Foam Collapse under Burning

Influence of Density on Foam Collapse under Burning

The fire behaviour of flexible polyurethane foams was studied using a cone calorimeter, with a special emphasis on the collapse step. Only one peak of heat release rate, ranging from 200 to 450 kW/m<sup>2</sup>, is observed for thin foams, depending on the foam density and the heat flux....

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Main Authors: Abdoul Fayçal Baguian, Salifou Koucka Ouiminga, Claire Longuet, Anne-Sophie Caro-Bretelle, Stéphane Corn, Antoine Bere, Rodolphe Sonnier
Format: Article
Language:English
Published: MDPI AG 2021-12-01
Series:Polymers
Subjects:
polyurethane foam
fire behaviour
collapse
Online Access:https://www.mdpi.com/2073-4360/13/1/13
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spelling doaj-4a161f13762747b6b9d1b0434ac6d0742020-12-23T00:05:20ZengMDPI AGPolymers2073-43602021-12-0113131310.3390/polym13010013Influence of Density on Foam Collapse under BurningAbdoul Fayçal Baguian0Salifou Koucka Ouiminga1Claire Longuet2Anne-Sophie Caro-Bretelle3Stéphane Corn4Antoine Bere5Rodolphe Sonnier6Laboratoire de Physique et de Chimie de l’Environnement, Université Joseph KI-ZERBO, Ouagadougou 03 BP 7021, Burkina FasoLaboratoire de Physique et de Chimie de l’Environnement, Université Joseph KI-ZERBO, Ouagadougou 03 BP 7021, Burkina FasoIMT—Mines Ales, Polymers Hybrids and Composites (PCH), 6 Avenue De Clavières, F-30319 Alès Cedex, FranceLMGC, IMT Mines Ales, Univ. Montpellier, CNRS, F-30319 Alès Cedex, FranceLMGC, IMT Mines Ales, Univ. Montpellier, CNRS, F-30319 Alès Cedex, FranceLaboratoire de Physique et de Chimie de l’Environnement, Université Joseph KI-ZERBO, Ouagadougou 03 BP 7021, Burkina FasoIMT—Mines Ales, Polymers Hybrids and Composites (PCH), 6 Avenue De Clavières, F-30319 Alès Cedex, FranceThe fire behaviour of flexible polyurethane foams was studied using a cone calorimeter, with a special emphasis on the collapse step. Only one peak of heat release rate, ranging from 200 to 450 kW/m<sup>2</sup>, is observed for thin foams, depending on the foam density and the heat flux. On the contrary, heat release rate (HRR) curves exhibit two peaks for 10 cm-thick foams, the second one corresponding to the pool fire formed after foam collapse. In all cases, the collapse occurs at a constant rate through the whole thickness. The rate of the recession of the front was calculated using digital and infrared cameras. Interestingly, its value is relatively constant whatever the heat flux (especially between 25 and 35 kW/m<sup>2</sup>), probably because of the very low heat conductivity preventing heat transfer through the thickness. The rate increases for the lightest foam but the fraction of burnt polymer during collapse is constant. Therefore, the pool fire is more intense for the densest foam. A simple macroscopic model taking into account only the heat transfer into the foam leads to much lower front recession rates, evidencing that the collapse is piloted by the cell walls’ rigidity.https://www.mdpi.com/2073-4360/13/1/13polyurethane foamfire behaviourcollapse
collection DOAJ
language English
format Article
sources DOAJ
author Abdoul Fayçal Baguian
Salifou Koucka Ouiminga
Claire Longuet
Anne-Sophie Caro-Bretelle
Stéphane Corn
Antoine Bere
Rodolphe Sonnier
spellingShingle Abdoul Fayçal Baguian
Salifou Koucka Ouiminga
Claire Longuet
Anne-Sophie Caro-Bretelle
Stéphane Corn
Antoine Bere
Rodolphe Sonnier
Influence of Density on Foam Collapse under Burning
Polymers
polyurethane foam
fire behaviour
collapse
author_facet Abdoul Fayçal Baguian
Salifou Koucka Ouiminga
Claire Longuet
Anne-Sophie Caro-Bretelle
Stéphane Corn
Antoine Bere
Rodolphe Sonnier
author_sort Abdoul Fayçal Baguian
title Influence of Density on Foam Collapse under Burning
title_short Influence of Density on Foam Collapse under Burning
title_full Influence of Density on Foam Collapse under Burning
title_fullStr Influence of Density on Foam Collapse under Burning
title_full_unstemmed Influence of Density on Foam Collapse under Burning
title_sort influence of density on foam collapse under burning
publisher MDPI AG
series Polymers
issn 2073-4360
publishDate 2021-12-01
description The fire behaviour of flexible polyurethane foams was studied using a cone calorimeter, with a special emphasis on the collapse step. Only one peak of heat release rate, ranging from 200 to 450 kW/m<sup>2</sup>, is observed for thin foams, depending on the foam density and the heat flux. On the contrary, heat release rate (HRR) curves exhibit two peaks for 10 cm-thick foams, the second one corresponding to the pool fire formed after foam collapse. In all cases, the collapse occurs at a constant rate through the whole thickness. The rate of the recession of the front was calculated using digital and infrared cameras. Interestingly, its value is relatively constant whatever the heat flux (especially between 25 and 35 kW/m<sup>2</sup>), probably because of the very low heat conductivity preventing heat transfer through the thickness. The rate increases for the lightest foam but the fraction of burnt polymer during collapse is constant. Therefore, the pool fire is more intense for the densest foam. A simple macroscopic model taking into account only the heat transfer into the foam leads to much lower front recession rates, evidencing that the collapse is piloted by the cell walls’ rigidity.
topic polyurethane foam
fire behaviour
collapse
url https://www.mdpi.com/2073-4360/13/1/13
work_keys_str_mv AT abdoulfaycalbaguian influenceofdensityonfoamcollapseunderburning
AT salifoukouckaouiminga influenceofdensityonfoamcollapseunderburning
AT clairelonguet influenceofdensityonfoamcollapseunderburning
AT annesophiecarobretelle influenceofdensityonfoamcollapseunderburning
AT stephanecorn influenceofdensityonfoamcollapseunderburning
AT antoinebere influenceofdensityonfoamcollapseunderburning
AT rodolphesonnier influenceofdensityonfoamcollapseunderburning
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