Prediction of the Self-Healing Width of Cement-Based Materials with Calcium Alginate Hydrogel Considering the Distribution of Unhydrated Cement in Cracks

Currently, the study results of the self-healing width of concrete based on the rehydration of unhydrated cement (UHC) are between 10 and 760 mu m, which are quite different due to the differences in material composition, experimental conditions, and measurement methods. This paper proposes a method for predicting the self-healing widths of cracks based on backscattering image analysis. Considering the particle-size distribution and the occurrence probability of different sections of UHC, the healing widths of local cracks and through-crack in cement-based materials with and without calcium alginate (CA) hydrogel were predicted, and were compared with those observed using scanning electron microscope. The predicted results show that the healing width of local cracks is 33 mu m. The self-healing widths of penetrating cracks in cement-based materials with and without CA is 7 and 10 mu m, respectively. The experimental results indicate that the self-healing widths of cement-based materials with and without CA are 36 and 17 mu m, respectively. The prediction results were close to the experimental results. However, the predicted self-healing width of cement-based materials mixed with CA is less than that without CA due to the smaller density of healing products.