Quasi-elastic neutron scattering (QENS) and its application for investigating the hydration of cement-based materials: State-of-the-art

Abstract

Cement hydration is a key process to determine most properties of cementitious materials. A deep understanding of cement hydration is thus favourable for the improvement of the overall properties of these materials and for providing solutions to the technique problems for concrete applications in terms of durability and sustainability. The conversion of water states is a fundamental process associated with cement hydration. Quasi-elastic neutron scattering (QENS) has recently emerged as a powerful non-destructive technique for studying the conversion of water states during cement hydration. The free water index and correlation parameters describing the states of the bound water and confined water can be quantitatively given. Compared with conventional methods of cement hydration characterization, QENS has a unique advantage. This paper summarizes the application of QENS for hydration in cement-based materials. In this review, the focus is first placed on the mechanism of the QENS method and the development of QENS spectrum analysis models to provide insight into the new technique. Then, the focus is shifted to its application for hydration and hydration kinetics in cement-based materials. Recent improvements in QENS facilities have allowed unexpected possibilities for studying complex hydration processes in cementitious materials. The potential of this promising technology for further research is outlined.