Thermo-mechanical properties of fibre reinforced cement-based foam exposed to sulphate

This paper presents the effect of sulphate exposure on the thermal conductivity of cement-based foams and examines their correlation with certain mechanical properties. The study was conducted on cement-based foams with a cast density of 475 kg/m(3). Along with a plain mix, another series with polypropylene fibre at 0.2% volume fraction was prepared to investigate the role of flexural toughness on thermal conductivity. The tests were conducted on prisms of cement-based foams immersed in a sodium sulphate solution after specific intervals of exposure. Whereas the flexural toughness was measured based on standard four-point bending tests, a transient plane source (TPS) thermal analyzer was employed to measure thermal conductivity. The microstructure of the exposed specimen was analyzed with the help of scanning electron micrograph and the phases were identified using X-ray diffraction. The results reveal that thermal conductivity increases over the initial stage of sulphate immersion and subsequently drops to a plateau value. This rise-and-fall was mimicked by the flexural toughness factor. (C) 2014 Elsevier Ltd. All rights reserved.