L. Jiang, H. H. Xiao, W. G. An, Y. Zhou and J. H. Sun (2014) Correlation study between flammability and the width of organic thermal insulation materials for building exterior walls. Journal/Energy And Buildings 82 243-249. [In English]
Web link: http://dx.doi.org/10.1016/j.enbuild.2014.06.013
Keywords: ,Thermal insulation, Polyurethane, Extruded polystyrene, Fire safety, Flame propagation, Width effects, HEAT-TRANSFER MECHANISMS, OF-THE-ART, FLAME SPREAD, POLYSTYRENE, THICKNESS, POLYMERS, SURFACES

Abstract: Considering the sustainable energy strategy for buildings, external wall insulation system is expected to play an important role in building energy conversation. And higher energy efficiency drives our demands for much thicker thermal insulation materials. However, it does not mean that the thicker the better, especially considering various requirements and properties. Among these are materials mechanical strength, aging durability, water resistance, construction difficulty and even fire safety performance. In the following paper to explore fire safety of organic thermal insulation, polyurethane foam (PUF) and extruded polystyrene (XPS) were selected to carry out a series of lab-scale tests over a wide range of widths. What is more, some fire safety aspects have been studied and compared: temperature variation in solid and gas phase, heat and mass transfer process, flame propagation over material surface, flame height, material melting and charring, etc. The aim of exploring relationship between material flammability and width is to help to select a proper width when considering fire safety, and lay a foundation for us to conduct real fire disaster of external insulation system in following study. (C) 2014 Elsevier B.V. All rights reserved.