In the early days, some meaningful studies were carried out via this advanced method, such as the hydration kinetics of cement, the physico-chemical characteristics of water molecules in different confinement environments, and pore size distribution.
Results also suggest that high Df of pore structure lead to a low velocity of bleeding, and Df can be a main factor for migration of the bleeding water when the T2 positions are close. Moreover, the initial fluidity of fresh cement paste increase with the T2 position, and with identical T2 position, fresh cement paste with high Df can generate a low fluidity.
It is found that the Df for region ii is sensitive to both water cement ratio and specific surface of cements. Results confirm that the pore structure of fresh cement paste has a significant fractal feature, and fractal regions, region i (2.0 < Df < 2.2) and ii (2.6 < Df < 3.0), are found for the pore structure in the distribution of the transverse relaxation time (T2). In addition, the relationship between pore structure and fluidity value as well as bleeding velocity was also discussed in this paper. Influencing parameters including water cement ratio and specific areas of cements on the fractal dimensions were investigated.
In this study, a novel method for calculation of surface fractal dimensions (Df) of pore structure based on ¹H low-field NMR was proposed.