Emerging Trends in Climate Change (ETCC)
Year : 2022, Volume : 1, Issue : 3
First page : (9) Last page : (21)
Article doi: : http://dx.doi.org/10.18782/2583-4770.113
Study of Workability, Compressive Strength, and Split Tensile Strength of Concrete Containing Hyposludge and Polypropylene Fiber
Nagender Kumar1* and Jaspreet Kaur Bhangu2 1M. Tech Scholar, 2Assistant Professor,
Department of School of Engineering and Technology, CT University, Ludhiana
*Corresponding Author E-mail: knagender365@gmail.com
Received: 14.09.2022 | Revised: 28.10.2022 | Accepted: 9.11.2022
ABSTRACT
The development of cement additionally represents the worldwide temperature alteration by delivering carbon dioxide in the climate. In this manner, a concrete plan with modern waste can help limit ecological issues. In this study hypo sludge was utilized as an alternate of cement in concrete. Polypropylene fiber (PPF) is a manufactured hydrocarbon polymer which was added to increase the strength of the concrete. In the present review, 250 samples were ready by fluctuating level of hypo sludge (0%, 5%, 10%, 15% and 20%) and polypropylene fiber (0%, 0.5% & 0.10%). The workability of concrete was tried following setting up the concrete though the compressive strength and the splitting tensile strength of concrete tests were tried following 7, 14 and 28 days of curing. The outcomes demonstrate that the workability of concrete reductions from medium to low with an expansion in the amount of hypo sludge and polypropylene fiber. The mixing of hypo sludge and polypropylene fiber together builds the strength of concrete for all curing ages up to a specific point. Afterwards, there is an unexpected decrease in strength of the concrete. The mix of 10% hypo sludge and 0.5% polypropylene fiber is suggested for the greatest strength with the least coefficient of brittleness.
Full Text : PDF; Journal doi : http://dx.doi.org/10.18782
Cite this article: Kumar, N., & Bhangu, J. K. (2022). Study of Workability, Compressive Strength, and Split Tensile Strength of Concrete Containing Hyposludge and Polypropylene Fiber, Emrg. Trnd. Clim. Chng.1(3), 9-21. doi: http://dx.doi.org/10.18782/2583-4770.113
