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Improvement of Concrete Durability and Strength with Epoxy Resin Concrete
Portland cement concrete has wide applications in construction owing to its good strength and relatively low cost. However, exposure to extreme environmental conditions has many significant drawbacks. Cracking due to mechanical stresses, chemical degradations, and extreme fluctuations in temperature accelerate the deterioration of concrete by way of loss of strength and increased permeability. One promising solution for these challenges is Epoxy Resin Concrete. ERC uses epoxy resins as binders, which increase its mechanical properties and strength significantly. The high adhesive power, low permeability, and excellent chemical resistance of epoxy resins create a highly cross-linked structure that significantly improves the toughness and durability of concrete. Consequently, ERC has several superior properties to conventional concrete, such as compressive strength, flexural strength, and crack resistance. It suits ERC in demanding environments, like marine structures, industrial floors, and road engineering. Enhanced performance of the ERC will be highly relevant for increasing the durability and safety of infrastructure subjected to severe conditions. This paper explores the advantages of ERC and its potential to offer a more durable and resilient solution to the challenges of modern construction.
Improvement of Concrete Durability and Strength with Epoxy Resin Concrete
Portland cement concrete has wide applications in construction owing to its good strength and relatively low cost. However, exposure to extreme environmental conditions has many significant drawbacks. Cracking due to mechanical stresses, chemical degradations, and extreme fluctuations in temperature accelerate the deterioration of concrete by way of loss of strength and increased permeability. One promising solution for these challenges is Epoxy Resin Concrete. ERC uses epoxy resins as binders, which increase its mechanical properties and strength significantly. The high adhesive power, low permeability, and excellent chemical resistance of epoxy resins create a highly cross-linked structure that significantly improves the toughness and durability of concrete. Consequently, ERC has several superior properties to conventional concrete, such as compressive strength, flexural strength, and crack resistance. It suits ERC in demanding environments, like marine structures, industrial floors, and road engineering. Enhanced performance of the ERC will be highly relevant for increasing the durability and safety of infrastructure subjected to severe conditions. This paper explores the advantages of ERC and its potential to offer a more durable and resilient solution to the challenges of modern construction.
Improvement of Concrete Durability and Strength with Epoxy Resin Concrete
Mridha, Nayem (author) / Zakaria, Md (author) / Khan, Md Shaifur Rahman (author) / Rahman, Mohammed Minhazur (author) / Galib, Md Omor Faruk (author)
2024-11-01
doi:10.59324/ejtas.2024.2(6).61
European Journal of Theoretical and Applied Sciences; Vol. 2 No. 6 (2024): European Journal of Theoretical and Applied Sciences; 689-699 ; European Journal of Theoretical and Applied Sciences; Том 2 № 6 (2024): European Journal of Theoretical and Applied Sciences; 689-699 ; 2786-7447 ; 10.59324/ejtas.2024.2(6)
Article (Journal)
Electronic Resource
English
Improvement of Concrete Durability
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