| Development of self-heating concrete using low-temperature phase change materials: Multiscale and in situ real-time evaluation of snow-melting and freeze–thaw performance R Deb, N Shrestha, K Phan, M Cissao, P Namakiaraghi, Y Alqenai, ... Journal of materials in civil engineering 36 (6), 04024102, 2024 | 9 | 2024 |
| Evaluating the properties and functionality of steel fiber reinforced concrete YM Alharmoosh-Alqenai Kansas State University, 2018 | 2 | 2018 |
| Investigating effects of sintering mean residence time on engineering properties of coal ash‐based lightweight aggregate Y Alqenai, M Balapour, M Zooyousefin, N Shresthal, YG Hsuan, Y Farnam International journal of applied ceramic technology 22 (1), e14854, 2025 | | 2025 |
| Utilizing Landfill Condition Waste Coal Ash to Manufacture Fine Lightweight Aggregates for Concrete Internal Curing Applications Y Alqenai Drexel University, 2024 | | 2024 |
| Engineering particle size distribution of sintered lightweight aggregates manufactured from waste coal combustion ash Y Alqenai, P Risdanareni, M Zooyousefin, T Nguyen, Y Farnam E3S web of conferences 445, 01001, 2023 | | 2023 |
| A Systematic Approach Recycling Landfill Condition Waste Coal Ash into High-Performance Lightweight Aggregates for Internal Curing of Concrete Y Alqenai, M Zooyousefin, M Balapour, S Visvalingam, G Hsuan, ... Available at SSRN 4939631, 0 | | |
| Paper_A Practical Approach to Manufacturing Sintered Lightweight Aggregates from Unrecycled Waste Coal Ash Y Alqenai, M Balapour, M Zooyousefin, T Nguyen | | |
| A Practical Approach to Manufacturing Sintered Lightweight Aggregates (LWA) from Unrecycled Waste Coal Ash (WCA) Y Alqenai, M Zooyousefin, T Nguyen, M Balapour | | |
