ISSN 2394-5125
 

Research Article 


Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete

Solomon Erskine, S. Packialakshmi.

Abstract
The present experimental investigation focuses on consequences of marine environment on tensile strength & crush strength of concrete using GGBFS. The concrete grade chosen in the present research is M50 with least w/c ratio which makes the concrete impermeable hence emanating the voids in the concrete to urge microscopic by preventing expansion by freeze-thaw effect. From East Coastal beach, Chennai, India the marine water was collected and used for curing test specimens to facilitate marine conditions. From ECR beach, the marine water was collected and stored. Additionally, in this research work slag cement (GGBFS) is added partially by replacing cement at 40% in the concrete specimen. The scientific aim of this research is to clearly show the end outcomes on comparison of the control and the tested specimen under contrasting environmental conditions
(Standard and Oceanic Environment) additionally with distinct ages of concrete (Seven, Fourteen and Twenty-eight days). It demonstrated the trend of strength cutback because of direct contact with the marine solution in control specimen. Considering, the utilization slag cement in concrete i.e. Tested specimen, even though depletion in durability is noticed in fourteen days, but for the concrete cured for twenty eight days the value has incremented to 53.7 N/mm2 from 51.7 N/mm2 under marine & standard environmental condition, discretely.

Key words: ental condition, discretely. KEYWORDS: G


 
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Pubmed Style

Solomon Erskine, S. Packialakshmi. Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete. JCR. 2020; 7(4): 1307-1317. doi:10.31838/jcr.07.04.231


Web Style

Solomon Erskine, S. Packialakshmi. Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete. http://www.jcreview.com/?mno=99410 [Access: April 14, 2021]. doi:10.31838/jcr.07.04.231


AMA (American Medical Association) Style

Solomon Erskine, S. Packialakshmi. Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete. JCR. 2020; 7(4): 1307-1317. doi:10.31838/jcr.07.04.231



Vancouver/ICMJE Style

Solomon Erskine, S. Packialakshmi. Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete. JCR. (2020), [cited April 14, 2021]; 7(4): 1307-1317. doi:10.31838/jcr.07.04.231



Harvard Style

Solomon Erskine, S. Packialakshmi (2020) Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete. JCR, 7 (4), 1307-1317. doi:10.31838/jcr.07.04.231



Turabian Style

Solomon Erskine, S. Packialakshmi. 2020. Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete. Journal of Critical Reviews, 7 (4), 1307-1317. doi:10.31838/jcr.07.04.231



Chicago Style

Solomon Erskine, S. Packialakshmi. "Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete." Journal of Critical Reviews 7 (2020), 1307-1317. doi:10.31838/jcr.07.04.231



MLA (The Modern Language Association) Style

Solomon Erskine, S. Packialakshmi. "Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete." Journal of Critical Reviews 7.4 (2020), 1307-1317. Print. doi:10.31838/jcr.07.04.231



APA (American Psychological Association) Style

Solomon Erskine, S. Packialakshmi (2020) Impact of Marine Water on Mechanistic Characteristics of Slag Cement in Concrete. Journal of Critical Reviews, 7 (4), 1307-1317. doi:10.31838/jcr.07.04.231