Xie QY, Zhang HP, Wan YT, Zhang QW, Cheng VD (2008a) Full-scale experimental study on crack and fallout of toughened glass with different thicknesses. Fire and Materials 32(5), 293-306. [In English]

Web link: http://dx.doi.org/10.1002/fam.968

Keywords:

crack, fallout, toughened glass, thickness, fire, induced thermal fields, window glass, fire, performance, enclosure

Abstract: The objective of this work is to analyze the crack and fallout of toughened glass with thickness of 6 and 10 mm in enclosure fires. A series of full-scale experiments are conducted in the ISO 9705 fire test room using pool fires with different pan sizes, which are located at the center of the combustion room. The temperature differences between the exposed regions at the fire side and the shaded regions at the ambient side for typical edge positions are measured and compared. The results of both 6- and 10-mm-thick toughened glass Suggest that the whole piece of toughened glass cracks and falls out completely when any region of the pane breaks. Relatively large window vents may come into being if the toughened glass breaks. The experimental results also preliminarily show that the critical breakage temperature difference for the 6-mm-thick toughened glass is about 330-380 degrees C, whereas the corresponding Values for 10-mm-thick toughened glass are approximately 470-590 degrees C. It is suggested that the critical breakage temperature difference is larger for thicker toughened glass. The experimental phenomena for both 6- and 10-mm-thick toughened glass indicate that horizontally partitioning windows into several small panes with frames may be helpful and important to prevent the whole large and fall toughened glass from falling out completely in enclosure fires. Copyright (C) 2008 John Wiley &, Sons, Ltd.