Enhancing Concrete Performance and Sustainability Using Waste Glass Powder as a Cement Substitute
Gomaa, A., Yasser, A., Mohamed, M., Khaled, A., Lotfy, A., Hamdy, K., Samy, K., Hafez, K. (2025). Enhancing Concrete Performance and Sustainability Using Waste Glass Powder as a Cement Substitute. EKB Journal Management System, 2(3), 1-14. doi: 10.21608/astj.2025.398215.1082
Ahmed M. Gomaa; Ammar Yasser; Mahmoud Mohamed; Ahmed Khaled; Abdelrahman Lotfy; Karim Hamdy; Khaled Samy; Kamal Hafez. "Enhancing Concrete Performance and Sustainability Using Waste Glass Powder as a Cement Substitute". EKB Journal Management System, 2, 3, 2025, 1-14. doi: 10.21608/astj.2025.398215.1082
Gomaa, A., Yasser, A., Mohamed, M., Khaled, A., Lotfy, A., Hamdy, K., Samy, K., Hafez, K. (2025). 'Enhancing Concrete Performance and Sustainability Using Waste Glass Powder as a Cement Substitute', EKB Journal Management System, 2(3), pp. 1-14. doi: 10.21608/astj.2025.398215.1082
Gomaa, A., Yasser, A., Mohamed, M., Khaled, A., Lotfy, A., Hamdy, K., Samy, K., Hafez, K. Enhancing Concrete Performance and Sustainability Using Waste Glass Powder as a Cement Substitute. EKB Journal Management System, 2025; 2(3): 1-14. doi: 10.21608/astj.2025.398215.1082

Enhancing Concrete Performance and Sustainability Using Waste Glass Powder as a Cement Substitute

Advanced Sciences and Technology Journal
Volume 2, Issue 3, December 2025, Pages 1-14    PDF (426.81 K)
Document Type: Original Article
DOI: 10.21608/astj.2025.398215.1082
Authors
Ahmed M. Gomaa* 1; Ammar Yasser2; Mahmoud Mohamed2; Ahmed Khaled2; Abdelrahman Lotfy2; Karim Hamdy2; Khaled Samy2; Kamal Hafez3
1Department of Construction and Building Engineering, Faculty of Engineering and Technology, Egyptian Chinese University, Cairo, Egypt
2Department of Civil Engineering, The Higher Institute of Engineering and Technology Fifth Settlement, Egypt
3Department of Civil Engineering, Faculty of Engineering, Suez Canal University, Ismailia, Egypt
Abstract
Concrete is the most widely used construction material, but its dependence on Portland cement contributes substantially to global CO₂ emissions. This study explores the partial replacement of cement with Waste Glass Powder (WGP), a silica-rich industrial byproduct, to enhance both sustainability and concrete performance. WGP was added at 10%, 12.5%, 15%, 17.5%, and 20% by weight of cement. Mechanical and durability properties including compressive strength, splitting tensile strength, flexural strength, and water permeability were evaluated at 28 days. The mix containing 17.5% WGP exhibited optimal performance, with compressive strength reaching 49.5 MPa (a 33.7% increase over the 37.0 MPa control), tensile strength rising to 4.3 MPa (compared to 3.2 MPa), and flexural strength peaking at 5.6 MPa (versus 4.2 MPa). Water absorption dropped from 5.2% in the control to 2.8% in the WGP17.5 mix, reflecting significant permeability reduction. These enhancements are attributed to the pozzolanic reactivity of WGP and improved microstructural densification. The results confirm that incorporating 17.5% WGP offers a balanced improvement in strength and durability while promoting sustainable construction through waste valorization and reduced cement usage
Keywords
Waste Glass Powder; Cement Replacement; Sustainable Concrete; Water Permeability Mechanical Properties
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