Using Arundo donax as Agricultural and Industrial Waste as Expanded Polystyrene in the Production of Cement Bricks
Bassim Frahat, N., Amin Elsayed, M., Fahmi, A., Abdelhady, M. (2025). Using Arundo donax as Agricultural and Industrial Waste as Expanded Polystyrene in the Production of Cement Bricks. EKB Journal Management System, (), -. doi: 10.21608/itj.2025.432084.1039
Nour Bassim Frahat; Mostafa Amin Elsayed; Asmaa Abd elmoneim Fahmi; Mohamed Abdelhady. "Using Arundo donax as Agricultural and Industrial Waste as Expanded Polystyrene in the Production of Cement Bricks". EKB Journal Management System, , , 2025, -. doi: 10.21608/itj.2025.432084.1039
Bassim Frahat, N., Amin Elsayed, M., Fahmi, A., Abdelhady, M. (2025). 'Using Arundo donax as Agricultural and Industrial Waste as Expanded Polystyrene in the Production of Cement Bricks', EKB Journal Management System, (), pp. -. doi: 10.21608/itj.2025.432084.1039
Bassim Frahat, N., Amin Elsayed, M., Fahmi, A., Abdelhady, M. Using Arundo donax as Agricultural and Industrial Waste as Expanded Polystyrene in the Production of Cement Bricks. EKB Journal Management System, 2025; (): -. doi: 10.21608/itj.2025.432084.1039

Using Arundo donax as Agricultural and Industrial Waste as Expanded Polystyrene in the Production of Cement Bricks

Industrial Technology Journal
Articles in Press, Accepted Manuscript, Available Online from 04 November 2025
Document Type: Original Article
DOI: 10.21608/itj.2025.432084.1039
Authors
Nour Bassim Frahat* 1; Mostafa Amin Elsayed2; Asmaa Abd elmoneim Fahmi3; Mohamed Abdelhady4
1Civil and Architectural Constructions Department, Faculty of Technology and Education, Suez University, Egypt
2Department of Civil and Architectural Constructions, Faculty of Technology and Education, Master’s Student, Suez University, P.O. Box: 43221, Suez, Egypt
3Department of Civil and Architectural Constructions, Faculty of Technology and Education, Suez University, P.O.Box: 43221, Suez, Egypt
4Department of Civil and Architectural Constructions, Faculty of Technology and Education, Suez University, P.O. Box: 43221, Suez, Egypt
Abstract
In this study, natural coarse aggregates were to some extent substituted with industrial waste materials and agricultural waste materials to come up with sustainable compositions of cement bricks. Seven experimental mixes were prepared, which were divided into two groups and a control mix. The former group was a partial replacement of traditional coarse aggregate (CA) with Expanded Polystyrene coarse aggregate (EXCA), where the substitution levels were 5%,7.5% and 10% percent and the other group was the substitution of Arundo donax coarse aggregate (ARCA) by the same ratio. Systematic testing was conducted on compressive strength, sorptivity, unit weight, and thermal conductivity properties of the bricks. The results revealed that the gradual decrease in compressive strength with increasing percentages of EX and AR aggregates occurred at the expense of the control mix. Replacing 10% of natural coarse aggregates with EX and AR reduced compressive strength by 46.7% and 44.0%, respectively. The 10% EXCA mix had the lowest density of 2000 kg/m³ (the control had 2189 kg/m³) and the best thermal conductivity reduction of 17.64% from 1.38 W/m.K to 1.13 W/m.K, indicating a better insulation result. Equally, the blend with 5% percent of ADCA had a density of 2100 kg/m³ and a thermal conductivity that was 11.47% lower than the conduction of 1.38 W/m.K. These findings indicate the promise of EX and AR waste as using sustainable alternative to the traditional aggregates in the manufacture of lightweight and energy-efficient cement bricks to be used in modern constructions.
Keywords
Cement Bricks; Expanded Polystyrene; Arundo Donax; Thermal Performance; Recycled Industrial and Agricultural Waste
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