Fungi-Mediated Self-Healing Concrete for Sustainable Infrastructure

Cracking in concrete is very common owing to drying shrinkage, freeze-thaw cycles, alkali-silica reaction, delayed ettringite formation, reinforcement corrosion, creep and fatigue, etc. Since inspection and maintenance techniques for concrete infrastructure require onerous labor and high costs, self-healing of harmful cracks without human interference or intervention could be of great attraction. The goal of this study is to explore a new self-healing concept in which fungi are used as self-healing agent to promote calcium carbonate precipitation to fill the cracks in concrete infrastructure. Recent studies in the field of geomycology have shown that many species of fungi could play an important role in promoting calcium carbonate mineralization, but their application in self-healing concrete has not been reported. Therefore, a screening of different species of fungi has been conducted in this study. Our results showed that, despite the drastic pH increase due to the leaching of Ca(OH)2 from concrete, the spores of Aspergillus nidulans (MAD1445), a pH regulatory mutant, germinated into hyphal mycelium on concrete plates with growth only slightly weaker. Material characterization techniques have been employed, which confirmed that the crystals precipitated on the fungal hyphae were composed of calcite.