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Experimental Study of Fiber-Reinforced Concrete Prepared with Recycled Coarse Aggregate Bagasse Ash and Polypropylene Fiber
https://orcid.org/http://orcid.org/0000-0003-3711-2383
As the concern of environment leads to the management of waste, on the same hand problem of carbon dioxide is the reason behind the ozone layer depletion gives the researcher leads to the conclusion that the environmental waste can be easily utilized in the concrete with not much effect to its strength. This paper deals with the experimental properties of concrete which are prepared by recycled aggregates and bagasse ash in the replacement of coarse aggregate and fine aggregate and polypropylene fiber are added to strengthen the split tensile and flexural properties. Various ratios of recycled aggregates are used in the concrete, and optimum is found which is further used for the investigation of optimum ratio of replacement of fine aggregate with bagasse ash the addition of polypropylene fiber is done with different ratios. This replacement and addition of material give a 12% increment in the compressive strength of concrete, 22% increment in split tensile, and 15% in flexural strength of the concrete. Cost is decreased by 13.5% and water absorption is not disturbed by the addition of polypropylene fiber.
Experimental Study of Fiber-Reinforced Concrete Prepared with Recycled Coarse Aggregate Bagasse Ash and Polypropylene Fiber
https://orcid.org/http://orcid.org/0000-0003-3711-2383
As the concern of environment leads to the management of waste, on the same hand problem of carbon dioxide is the reason behind the ozone layer depletion gives the researcher leads to the conclusion that the environmental waste can be easily utilized in the concrete with not much effect to its strength. This paper deals with the experimental properties of concrete which are prepared by recycled aggregates and bagasse ash in the replacement of coarse aggregate and fine aggregate and polypropylene fiber are added to strengthen the split tensile and flexural properties. Various ratios of recycled aggregates are used in the concrete, and optimum is found which is further used for the investigation of optimum ratio of replacement of fine aggregate with bagasse ash the addition of polypropylene fiber is done with different ratios. This replacement and addition of material give a 12% increment in the compressive strength of concrete, 22% increment in split tensile, and 15% in flexural strength of the concrete. Cost is decreased by 13.5% and water absorption is not disturbed by the addition of polypropylene fiber.
Experimental Study of Fiber-Reinforced Concrete Prepared with Recycled Coarse Aggregate Bagasse Ash and Polypropylene Fiber
https://orcid.org/http://orcid.org/0000-0003-3711-2383
As the concern of environment leads to the management of waste, on the same hand problem of carbon dioxide is the reason behind the ozone layer depletion gives the researcher leads to the conclusion that the environmental waste can be easily utilized in the concrete with not much effect to its strength. This paper deals with the experimental properties of concrete which are prepared by recycled aggregates and bagasse ash in the replacement of coarse aggregate and fine aggregate and polypropylene fiber are added to strengthen the split tensile and flexural properties. Various ratios of recycled aggregates are used in the concrete, and optimum is found which is further used for the investigation of optimum ratio of replacement of fine aggregate with bagasse ash the addition of polypropylene fiber is done with different ratios. This replacement and addition of material give a 12% increment in the compressive strength of concrete, 22% increment in split tensile, and 15% in flexural strength of the concrete. Cost is decreased by 13.5% and water absorption is not disturbed by the addition of polypropylene fiber.
Experimental Study of Fiber-Reinforced Concrete Prepared with Recycled Coarse Aggregate Bagasse Ash and Polypropylene Fiber
Lecture Notes in Civil Engineering
Gupta, Ashok Kumar (editor) / Shukla, Sanjay Kumar (editor) / Azamathulla, Hazi (editor) / Kumar, Harish (author) / Tiwary, Aditya Kumar (author)
Advances in Construction Materials and Sustainable Environment ; Chapter: 58 ; 711-721
2021-12-15
11 pages
Article/Chapter (Book)
Electronic Resource
English
Polypropylene Fiber Recycled Brick-Concrete Coarse Aggregate Concrete and its Preparation Method
| European Patent Office | 2021