Abstract
One of the key parameters for the performance of concrete repairs is the quality of the interface between the repair material and concrete substrate, which is determined by cement hydration and microstructure development. The moisture exchange between the repair material and concrete substrate plays an important role in the cement hydration and porosity of cementitious repair materials. To better understand the influence of moisture exchange on the hydration of cementitious repair materials, this paper presents a numerical simulation of cement hydration and microstructure development of repair materials, considering moisture exchange. The simulation results reveal that the moisture exchange between the repair material and concrete substrate results in a water content change in two parts. Before the repair material setting, the water absorption of an unsaturated concrete substrate causes a reduction in the w/c ratio in the repair material, decreasing the hydration rate of the repair material. After the repair material setting, the water migrates from the concrete substrate to the repair material to provide additional water to accelerate the hydration of unhydrated cement in the repair material.
Highlights
Concrete is the most popular structural material in the world today due to its excellent resistance to water, low cost and so on (Mehta and Monteiro, 2014; Xie et al, 2018)
Cement hydration and microstructure evolution play an important role in the bonding properties of the interface between the repair materials and concrete substrate (Courard, 2000; Shi et al, 2021)
This paper aims to develop a numerical model to understand better the influence of moisture exchange on the cement hydration process and microstructure development of cementitious repair materials
Summary
Concrete is the most popular structural material in the world today due to its excellent resistance to water, low cost and so on (Mehta and Monteiro, 2014; Xie et al, 2018). Concrete structures are vulnerable to deterioration resulting from mechanical and environmental effects (Hobbs, 2001; Yin et al, 2020). Most of these concrete structures need repair after their deterioration. Cement hydration and microstructure evolution play an important role in the bonding properties of the interface between the repair materials and concrete substrate (Courard, 2000; Shi et al, 2021). Courard and Degeimbre (2003), Courard (2005) and Lukovic and Ye (2016) suggested that cement hydration and microstructure development in concrete repairs is influenced by the moisture Cement hydration and microstructure evolution play an important role in the bonding properties of the interface between the repair materials and concrete substrate (Courard, 2000; Shi et al, 2021). Courard and Degeimbre (2003), Courard (2005) and Lukovic and Ye (2016) suggested that cement hydration and microstructure development in concrete repairs is influenced by the moisture
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