Experimental and Numerical Investigation of Localised Fire on Glazing Facades Having Different Orientations

Breakage and fallout of glazing systems create openings in an enclosure that affect the fire growth and the development of post flashover flames emerging outside of the openings. The behaviour of glazing is the result of its thermally induced stress response to the heat fluxes from the fire in an enclosure. In recent times building façade designs have evolved and now incorporate many different shapes, orientations and materials. The conventional single and double glazing panels have been surpassed by composite type glazing systems including glazing and transparent resins. This paper presents experimental testing of these comp osite glazing panels having different orientations subjected to localized fires, which have the same fire load. The experimental findings of interest include the varying first crack times for both scenarios as well as the variable final crack patterns on the glazing panels. The effect of localized fire on the materials tested as seen in the final char patterns on both glazing systems is also note worthy. The paper also includes details of three-dimensional finite element modeling completed for the prediction of response of the glazing panels at different orientations to the elevated temperatures of the localised fire scenario as tested in the laboratory. This finite element analysis allows for an assessment of glazing thermal stresses at various times throughout each test.