Analysis of Crack repairing technique by using self-healing concrete

Ashutosh Gupta

Monika Gautam, Devdhar Dwivedi, Vishal Gupta, Mr. Hanumant Sharan Singh: Analysis of Crack repairing technique by using self-healing concrete. In: International Journal of Engineering, Management & Technology (IJEMT), vol. 1, iss. 03, pp. 32-39, 2022, ISSN: xxxx-xxxx.

Abstract

The world is looking for strength and sustainability. Creating and developing new resources
is preferable to conserving existing ones. The utilisation of micro-bacterial influenced concrete is presented in this study. Bio-concrete is developing as a viable alternative to traditional concrete with improved selfhealing properties. This self-healing characteristic, along with considerable strength requirements, justifies the use of Bio-concrete as a sustainable building material. The use of Bio- concrete lowers the overall defects in concrete performance caused by fractures in concrete. This, in turn, lowers the structure's maintenance costs as compared to traditional concrete. Microbes are an excellent solution for extending the life of concrete. The service life of concrete structures is impacted by several factors. Crack development is one of the major causes of this. Crack development can be caused by errors in composition, mixing, and placement, as well as incorrect curing. Crack development is difficult to manage, but it can be controlled more effectively using bioconcrete. Microbes are introduced to Bio-Concrete to precipitate CaCO3. It fills the gap or pore between the concrete materials, improving the strength and performance of the concrete. As a result, bio concrete meets the requirement for next generation concrete while requiring less economic expenditure. The continuing report investigates the compressive and flexural strength of Bio- Concrete. When we combine partial replacement of water with 2% and 4%microbe along with making 2% starch constant with concrete blend and test the specimens after 7days, 28days, and 56days, we achieve the goal of this inquiry, which is to improve the strength characteristics. Bio-concrete has a high degree of durability. As a result of the microorganisms
filling the pores and micro-internal fissures in the concrete, the strength qualities are improved.

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@article{GSV-040522-03-IJEMT,
title = {Analysis of Crack repairing technique by using self-healing concrete},
author = {Monika Gautam, Devdhar Dwivedi, Vishal Gupta, Mr. Hanumant Sharan Singh},
url = {https://ijemt.com/wp-content/uploads/2022/06/GSV-040522-03-IJEMT.pdf, Download Pdf},
issn = {xxxx-xxxx},
year  = {2022},
date = {2022-05-20},
journal = {International Journal of Engineering, Management \& Technology (IJEMT)},
volume = {1},
issue = {03},
pages = {32-39},
abstract = {The world is looking for strength and sustainability. Creating and developing new resources 
is preferable to conserving existing ones. The utilisation of micro-bacterial influenced concrete is presented in this study. Bio-concrete is developing as a viable alternative to traditional concrete with improved selfhealing properties. This self-healing characteristic, along with considerable strength requirements, justifies the use of Bio-concrete as a sustainable building material. The use of Bio- concrete lowers the overall defects in concrete performance caused by fractures in concrete. This, in turn, lowers the structure's maintenance costs as compared to traditional concrete. Microbes are an excellent solution for extending the life of concrete. The service life of concrete structures is impacted by several factors. Crack development is one of the major causes of this. Crack development can be caused by errors in composition, mixing, and placement, as well as incorrect curing. Crack development is difficult to manage, but it can be controlled more effectively using bioconcrete. Microbes are introduced to Bio-Concrete to precipitate CaCO3. It fills the gap or pore between the concrete materials, improving the strength and performance of the concrete. As a result, bio concrete meets the requirement for next generation concrete while requiring less economic expenditure. The continuing report investigates the compressive and flexural strength of Bio- Concrete. When we combine partial replacement of water with 2% and 4%microbe along with making 2% starch constant with concrete blend and test the specimens after 7days, 28days, and 56days, we achieve the goal of this inquiry, which is to improve the strength characteristics. Bio-concrete has a high degree of durability. As a result of the microorganisms 
filling the pores and micro-internal fissures in the concrete, the strength qualities are improved.
},
keywords = {Volume 1 Issue 03 May 2022},
pubstate = {published},
tppubtype = {article}
}

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