AbstractExperimental results on the rate of lateral flame spread and time for piloted ignition under an externally imposed radiant flux were analyzed with a simple theroretical model. The data were developed from a radiant panel apparatus that considers a wall mounted sample with a flux distributiondocumentclass{article}pagestyle{empty}begin{document}$ (dot q_{rm e} ^{prime prime } ) $end{document}of 5 W cm−2at the ignited end to 0.2 W cm−2at the other end. It is shown that after an appropriate preheating time (flux exposure time before sample is ignited) the rate of flame spread (Vf) results can be correlated bydocumentclass{article}pagestyle{empty}begin{document}$ V_{rm f} - {textstyle{1 over 2}} = Cleft( {dot q''_{{rm o,ig}} - dot q_{rm e} ^{prime prime } } right) $end{document}whereCis a material ‘constant’ anddocumentclass{article}pagestyle{empty}begin{document}$ dot q''{rm }_{{rm o,ig}} $end{document}is minimum flux for piloted ignition—also a material (and configuration) constant. An extension of this model demonstrates thatVfcan also be expressed in terms of an ‘ignition temperature’ and the surface temperature of the material. Both correlations are derivable from a single flame spread experiment. Results are presented for a number of typical wood and plas
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