The efficiency of self-healing concrete using alternative manufacturing procedures and more realistic crack patterns

During the last years, more and more research has been devoted to self-healing in cementitious materials. However, while most research is still done at laboratory scale, the feasibility of up scaling and thus practical application of the proposed mechanisms becomes important. In the current study, the resistance of brittle encapsulation materials, containing polyurethane, against the mixing and manufacturing process of concrete was studied. Different methods to protect the capsules were proposed and tried out. In addition, realistic crack patterns were created in beams with embedded capsules. Non-destructive testing techniques such as Digital Image Correlation, Acoustic Emission analysis and X-ray radiography were used to evaluate the survivability of the capsules upon mixing and the breakability of the capsules upon crack formation. Evaluation of the crack repair efficiency by performing water permeability tests showed some improvement in water tightness due to self-healing, but the water ingress into the cracks was not completely prevented.