A waste-derived nanocomposite sealant for repairing micro-cracks in concrete

The use of renewable resources has been gaining interest due to their high economic benefits. They are attractive as a sustainable alternative to conventional resources for producing useful and valuable materials. The paper focuses on using a composite of graphene-oxide and chitosan, an aquaculture waste-derived material, as a renewable feedstock for producing a sealant for healing micro-cracks in concrete. The sealant named Eco-Nanoseal is well characterised, and its interaction with concrete is studied. A possible binding mechanism of Eco-Nanoseal with concrete is proposed. The nanofibrous film-forming composite can quickly solidify in the concrete environment without any external polymerising agent. The quick ability to form a solid plug and strong bonding with the concrete surface makes Eco-Nanoseal a potential candidate for healing micro-cracks in concrete. The novel application is demonstrated well in M25 grade concrete cube specimens. With low environmental factor (E-factor) and process mass intensity (PMI) values of 0.05 and nearly 1, respectively, the Eco-Nanoseal complies the critical parameters of materials' sustainability indices. The Eco-Nanoseal is a promising and environmentally-friendly alternative to synthetic polymer-based adhesives.

Automated summary

With their high economic benefits, renewable resources are gaining attention as a sustainable alternative to conventional resources. This paper focuses on the use of a composite material made of graphene-oxide and chitosan as a renewable feedstock for producing a sealant for healing micro-cracks in concrete. The sealant, Eco-Nanoseal, shows strong bonding with concrete and has the potential to be an environmentally-friendly alternative to synthetic polymer-based adhesives.