Experimental Study on Microbial Concentration Optimization in Cement Mortar using M-Sand as Fine Aggregate

One of the major shortcomings of conventional concrete based constructions is its gradual strength deterioration over time due to its week tensile strength. Without any effective measures to remedy this problem the alternatives we have now are periodic monitoring, retrofitting, repair & rehabili...

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Bibliographic Details
Published in:IOP conference series. Materials Science and Engineering 2020-09, Vol.936 (1), p.12024
Main Authors: Benjamin, Babitha, Sabbavarapu, Anisha, Sudhakumar, J, Suchithra, T V
Format: Article
Language:English
Subjects:
Bacteria
Calcium carbonate
Cement
Compressive strength
Deterioration
Manpower
Microorganisms
Moisture content
Mortars (material)
Optimization
Physical properties
Protective coatings
Rehabilitation
Retrofitting
Tensile strength
Underground structures
Water absorption
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Summary:One of the major shortcomings of conventional concrete based constructions is its gradual strength deterioration over time due to its week tensile strength. Without any effective measures to remedy this problem the alternatives we have now are periodic monitoring, retrofitting, repair & rehabilitation, etc. The above-mentioned methods are all highly unsustainable due to manpower, money and materials being spend in a cycle to upkeep. If a protective coating of microbial cement mortar is given to the structures like bridges, underground tunnels, etc. were a lot of dampness is observed, structural deterioration can be prevented. The study is aimed at optimizing the concentration of bacteria in self-healing cement mortar which uses microbiologically induced calcium carbonate precipitate to induce crack healing ability. For this purpose, bacteria Bacillus Subtilis MTCC441 (non-ureolytic) were added in concentrations 104, 106, 108 cells/ml to a mix using M-sand as fine aggregate. The bacteria were cultured in a nutrient broth and were added to cement mortar by water medium during mixing. The addition to cement mortar was done when the microorganisms were still alive and active. In this study, a series of experiments like compressive strength, water absorption, and pour healing was done to optimise the concentration. The results showed that 106 cells/ml was the optimum quantity of microorganisms required to enhance the physical properties of concrete.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/936/1/012024