Influence of ion chelator and CO2-rich environment on self-healing capabilities of cement-based materials

•Self-healing ability of mortar with ion chelator under CO2-rich environment was investigated.•The bottom crack of mortar has better self-healing ability than the top crack.•CO2-rich environment and ion chelator can promote the formation of CaCO3 in crack. Ion chelator is a kind of crystalline additive which can accelerate the precipitation of calcium carbonate in cracks of cement-based materials. In this paper, the influences of ion chelator and CO2-rich environment on self-healing capabilities of cement mortar were investigated. The mortars with or without ion chelator were subjected to two gas environments (air and CO2-rich) and three exposure conditions (no water, water contact and water immersion), respectively. The self-healing rate of cracks, water permeability and water absorption of the healed mortars, and microstructure of self-healing product were used to assess the self-healing capability of mortars. The results indicated that the self-healing ability of the mortars cured in CO2-rich environment is stronger than that of the mortars cured in air environment. The excellent self-healing ability of the mortars with ion chelator needs to be stimulated by water contact or water immersion. The relative permeability coefficient and water absorption coefficient of mortar with ion chelator in the CO2-rich environment under water contact or water immersion conditions were significantly reduced. In addition, the bottom surface crack of mortar has better self-healing ability than the top surface crack of mortar. The bottom surface crack up to 0.46 mm can be healed after curing for 28 d when the mortars with ion chelator were cured in the CO2-rich environment under water immersion condition. Scanning electron microscopy showed that the particle sizes of self-healing products (CaCO3) in bottom surface crack were larger than that in top surface crack.