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ABSTRACT
This research investigates the impact of reduced graphene oxide (rGO) on the temperature gradient and associated stresses of mass mortar blocks. When the thermal stresses induced by the temperature gradient between the core of mass mortar or concrete blocks and their surfaces exceed the tensile strength of the concrete, cracking can occur. The measurements of temperature evolution at several locations in two mortar blocks with dimensions of 0.48 m x 0.41 m x 0.68 m are obtained from the literature. The first block was cast with a reference mix (REF) which contains only ordinary Portland cement, whereas the cement was replaced by 1.2% rGO for the other block. A finite element simulation of the two blocks was carried out and the measured temperature evolution was captured with a reasonable precision. Subsequently, numerical simulation was used to investigate the influence of rGO on the temperature rise and the associated potential of cracking in the mass mortar blocks with dimensions of 1 m x 1 m x 1 m and 2 m x 2 m x 2 m. It is noted that the rGO has a significant effect on reducing the the cracking indices of mass mortar blocks.
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No potential conflict of interest was reported by the author(s).
Additional information
Notes on contributors
Muneer Saeed
M.k.Saeed, PhD, is an Assistant Professor at the Civil Engineering department, Qassim University,Unaizah, Saudi Arabia. His main research interests include strengthening the concrete structures with carbon fiber-reinforced polymer, Thermal stresses and cracking indices of mass concrete structures at early age, and finite element simulation.