Effect of self-healing on water permeability and mechanical property of Medium-Early-Strength Engineered Cementitious Composites

The demand for repair and retrofit of aging concrete infrastructures increase over time. Normal concrete repair materials are brittle and tend to crack, resulting in a lack of durability due to cycles of repair and retrofit. In order to combat this problem, a Medium-Early-Strength Engineered Cementitious Composites (MES-ECC) was introduced and its self-healing behavior was investigated in this paper. Autogenous healing of MES-ECC with different pre-damage levels and different pre-damage times was investigated after exposure to different conditioning regimes: water/room air cycle, submersion in water, 90%RH/room air cycle and room air curing. Rapid penetration test and four point bending test were used to assess the influence of self-healing on water permeability and mechanical properties of MES-ECC. The self-healing process and chemical characteristic of self-healing products were examined by environment scanning electron microscope (ESEM) and energy dispersive X-ray spectroscopy (EDS). The MES-ECC develops a compressive strength of 24 MPa at the age of three days and has high tensile ductility with crack width of below 50 mu m. Furthermore, the self-healing test results show that relative water permeability decrease to 0 after 10 healing cycles. Additionally, the mechanical properties such as flexural stiffness, flexural strength and deformation show certain recovery after 10 healing cycles. The self-healing process was largely occurred in the initial 3 cycles, and the self-healing product is a mixed Ca(OH)(2)/CaCO3 system with the CaCO3 as the main ingredient. (c) 2014 Elsevier Ltd. All rights reserved.