A Review: Experimental Study on the Effect of Partial Replacement of Cement by Fly Ash & using Silica Fume in Concrete |
Author(s): |
Mayank Bhawsar , PRASHANTI INSTITUTE OF TECHNOLOGY & SCIENCE, UJJAIN; Rahul Sharma, PRASHANTI INSTITUTE OF TECHNOLOGY & SCIENCE, UJJAIN; Akash Jaiswal, PRASHANTI INSTITUTE OF TECHNOLOGY & SCIENCE, UJJAIN |
Keywords: |
Fly Ash, Silica Fume, Partial Replacement, OPC, Compressive Strength, Splitting Tensile and Flexural Strength, Durability, Stiffness |
Abstract |
— In the ongoing past, there have been considerable actions for enhancing the properties of cement as for eminence and stiffness, particularly in dynamic conditions. The development of concrete technology can decrease the use of natural resources and energy sources and lessen the burden of pollutants on environment. The improvement of solid innovation can reduce the utilization of common assets and vitality sources and minimize the weight of toxins on condition. Proper introduction of fly ash & silica fume in concrete improves both the mechanical and durability characteristics of the concrete. A huge quantity of by-product or wastes such as fly-ash, copper slag, silica fume, stone-dust etc. are generated by industries, which causes environmental as well as health inconvenience due to discarding and removal. The waste materials which can be utilized as extra cementitious material and proper presentation of fly ash & silica smoulder in cement enhances both the mechanical and stiffness qualities of the solid. This paper presents the literature review on partial replacement of Cement by Fly Ash & adding of Silica Fume in the mix which includes recent and future trends of research. To reduce the amount of cement in concrete supplementary material are used. Fly Ash & Silica Fumes are most popular material used in the concrete to improve its compressive, flexural, split tensile strength and also increase its durability. |
Other Details |
Paper ID: IJSRDV7I120092 Published in: Volume : 7, Issue : 12 Publication Date: 01/03/2020 Page(s): 400-406 |
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