Production of calcium carbonate-precipitating biomass powder as self-healing additive in concrete and performance evaluation in mortar

A sequential batch reactor (SBR) was used to enrich and produce a self-protected CaCO3-precipitating biomass powder (CPB) that hydrolzes urea and reduces nitrate. The self-protected CPB, consisting of 50% biomass and 50% inorganic matter, was incorporated into a mortar and its self-healing performan...

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Bibliographic Details
Published in:Cement & concrete composites 2023-04, Vol.138, p.104952, Article 104952
Main Authors: Zhu, Xuejiao, Sakarika, Myrsini, Ganigué, Ramon, Van Tittelboom, Kim, Erşan, Yusuf Çağatay, Boon, Nico, De Belie, Nele
Format: Article
Language:English
Subjects:
Biomass
CaCO3 precipitation
Corrosion inhibition
Nitrite
Self-healing concrete
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Summary:A sequential batch reactor (SBR) was used to enrich and produce a self-protected CaCO3-precipitating biomass powder (CPB) that hydrolzes urea and reduces nitrate. The self-protected CPB, consisting of 50% biomass and 50% inorganic matter, was incorporated into a mortar and its self-healing performance was assessed. Crack closure observations showed that specimens containing CPB showed higher crack healing ratio in complete water immersion, while Bacillus sphaericus spores containing samples only exhibited crack healing under cyclic wet-dry incubation. During corrosion monitoring, CPB addition revealed a corrosion inhibition effect equivalent to that achieved by the addition of the chemical corrosion inhibitor nitrite (0.7 w/w% cement weight). Overall, CPB is a suitable self-healing bio-additive for effective crack closure in cementitious composites used in immersed structural elements. It is compatible with the cementitious matrix and resulted in promising results concerning crack healing and corrosion inhibition. •Self-protected CaCO3 precipitating biomass powder (CPB) was produced as corrosion inhibitor.•Specimens amended with CPB showed improved crack healing in complete water immersion.•CPB is compatible with the cementitious matrix and could improve the mortar durability.
ISSN:0958-9465
1873-393X
DOI:10.1016/j.cemconcomp.2023.104952