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The Modeling of Heat Transfer across Intumescent Polymer Coatings

CSIRO Materials Science and Engineering, Highett, Victoria, Australia

^* To whom correspondence should be addressed. E-mail: Greg.Griffin{at}csiro.au.

	Abstract

The use of mathematical models to predict the thermal resistance of polymer-based, intumescent coatings are reviewed and their limitations are discussed. A mathematical model is derived to describe the developing temperature profile across an intumescent coating when exposed to a radiant heat source. The model includes the effects of: the endothermic and exothermic reactions; convective heat transfer as degradation gases are transported through the coating; radiation heat transfer across the developing porous solid; and the increase in thermal resistance as gases are formed and the coating expands. The model predictions are compared with experimental data from the heating of epoxy-based and vinyl acetate-based intumescent coatings in a cone calorimeter. A sensitivity analysis is performed to show the effect of the thermal characteristics of the coating on the thermal resistance of the material. The application of the model to newly developed intumescent coatings is discussed.

First published on September 22, 2009
Journal of Fire Sciences 2009, doi:10.1177/0734904109346396


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