
International Journal of Concrete Technology
About the Journal
International Journal of Concrete Technology [2456-8317(e)] is a peer-reviewed hybrid open-access journal launched in 2015 that covers topics related to advancement in concrete technology starting from concrete plants, and concrete mixers to reinforced concretes. The Journal publishes both experimental as well as theoretical articles and review papers that can create an impact on the research community.
Journal at a Glance
Latest Articles
Sustainable Cementitious Composites withEpoxy–Alccofine Synergy
Abstract: This research examines the combined influence of epoxy resin and Alccofine when used as partial substitutes for cement in producing sustainable, high-performance concrete. The study aims to improve both strength and durability properties while simultaneously reducing cement usage and its environmental impact. Concrete mixes were prepared with epoxy resin contents of 0%, 5%, and 10%…
Sustainable Cementitious Composites with Epoxy–Alccofine Synergy
Abstract: This research examines the combined influence of epoxy resin and Alccofine when used as partial substitutes for cement in producing sustainable, high-performance concrete. The study aims to improve both strength and durability properties while simultaneously reducing cement usage and its environmental impact. Concrete mixes were prepared with epoxy resin contents of 0%, 5%, and 10%…
Literature Review on Overcoming Graphene Dispersion Challenges in Ultra High Performance Concrete: A Review of Self-Dispersion and Bio-Polymer Encapsulation Strategies
Abstract: Abstract—Ultra-High-Performance Concrete (UHPC) is a new generation of cement-based material because of its higher compressive and tensile strength, increased durability, and higher resistance to environmental degradation. However, UHPC undergoes microcracking when subjected to mechanical and thermal loading, which can jeopardize the long-term performance of the structure, decrease service life, and cause expensive maintenance. Traditional solutions…
Comparative Study on the Effect of Acidic and Alkaline Mixing Water on Concrete Strength
Abstract: AbstractThe overall performance and durability of concrete are significantly influenced by the quality of water. The strength of the concrete is mostly influenced by the pH of the mixing water, which also affects the hydration process of the cement. This study investigates how different pH levels of water affect the compressive strength of concrete. Three…
Influence of Jute Fibers on Tensile Strength and Flexural Strength of Concrete Composites
Abstract: Abstract: Concrete is a very versatile construction material, and its demand is growing day by day to meet ongoing construction work. At the same time aggressive impact of concrete materials on environment is also increasing. Concrete is recognised as foundation of our progress allowing us to build the infrastructure of modern life but raising issues…
A review – Inhancing the Performance of Self-Curing Concrete Using Polyethylene Glycol as an Internal Curing Agent
Abstract: Abstract—This study examines the use of Polyethylene Glycol (PEG-400) as an internal curing agent in concrete, offering a sustainable alternative to traditional water-curing methods. The research addresses the challenge of water scarcity in the construction industry by introducing a self-curing system capable of retaining internal moisture to support prolonged cement hydration. PEG-400, a water-soluble polymer,…