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Ahmed Suleiman
Ahmed Suleiman
Ph.D. Civil Engineering
Verified email at wsp.com
Title
Cited by
Cited by
Year
Investigation of concrete exposed to dual sulfate attack
ML Nehdi, AR Suleiman, AM Soliman
Cement and Concrete Research 64, 42-53, 2014
1932014
Effect of environmental exposure on autogenous self-healing of cracked cement-based materials
AR Suleiman, ML Nehdi
Cement and Concrete Research 111, 197-208, 2018
1082018
Effect of surface treatment on durability of concrete exposed to physical sulfate attack
AR Suleiman, AM Soliman, ML Nehdi
Construction and Building Materials 73, 674-681, 2014
1062014
Classification and quantification of cracks in concrete structures using deep learning image-based techniques
M Flah, AR Suleiman, ML Nehdi
Cement and Concrete Composites 114, 103781, 2020
1002020
Visualization and quantification of crack self-healing in cement-based materials incorporating different minerals
AR Suleiman, AJ Nelson, ML Nehdi
Cement and Concrete Composites 103, 49-58, 2019
952019
Modeling self-healing of concrete using hybrid genetic algorithm–artificial neural network
A Ramadan Suleiman, ML Nehdi
Materials 10 (2), 135, 2017
912017
Crack self-healing in bio-green concrete
LV Zhang, ML Nehdi, AR Suleiman, MM Allaf, M Gan, A Marani, M Tuyan
Composites Part B: Engineering 227, 109397, 2021
662021
Recycling tire rubber in asphalt pavements: State of the art
SA Alfayez, AR Suleiman, ML Nehdi
Sustainability 12 (21), 9076, 2020
662020
Sustainable use of sugarcane bagasse ash in cement-based materials
PV Andrećo, AR Suleiman, GC Cordeiro, ML Nehdi
Green Materials 7 (2), 61-70, 2019
482019
Self-healing in fiber-reinforced alkali-activated slag composites incorporating different additives
LV Zhang, AR Suleiman, ML Nehdi
Construction and Building Materials 262, 120059, 2020
322020
Beneficiation of sugarcane bagasse ash: Pozzolanic activity and leaching behavior
PV Andrećo, AR Suleiman, GC Cordeiro, ML Nehdi
Waste and Biomass valorization 11, 4393-4402, 2020
282020
Exploring effects of supplementary cementitious materials in concrete exposed to physical salt attack
AR Suleiman, ML Nehdi
Magazine of Concrete Research 69 (11), 576-585, 2017
262017
Crack self-healing in alkali-activated slag composites incorporating immobilized bacteria
LV Zhang, AR Suleiman, MM Allaf, A Marani, M Tuyan, ML Nehdi
Construction and Building Materials 326, 126842, 2022
192022
Physical sulphate attack on concrete
AR Suleiman
The University of Western Ontario (Canada), 2014
152014
Effect of autogenous crack self-healing on mechanical strength recovery of cement mortar under various environmental exposure
AR Suleiman, ML Nehdi
Scientific Reports 11 (1), 7245, 2021
142021
Zero-cement concrete resistance to external sulfate attack: a critical review and future needs
D Kanaan, AM Soliman, AR Suleiman
Sustainability 14 (4), 2078, 2022
112022
Crack self-healing in NaOH-activated slag-based composites incorporating calcium hydroxide
LV Zhang, AR Suleiman, ML Nehdi
Journal of Materials in Civil Engineering 33 (4), 04021012, 2021
62021
Fresh, hardened, and microstructural properties of ambient cured one-part alkali-activated self-consolidating concrete
D Kanaan, AM Safhi, AR Suleiman, AM Soliman
Sustainability 15 (3), 2451, 2023
42023
Quantifying crack self-healing in concrete with superabsorbent polymers under varying temperature and relative humidity
AR Suleiman, LV Zhang, ML Nehdi
Sustainability 13 (24), 13999, 2021
42021
Comparative study on self-healing behavior of alkali-activated composites and cement-based materials
LV Zhang, AR Suleiman, A Marani, ML Nehdi
CSCE 2021 Annual Conference Inspired by Nature-Inspiré par la Nature 233 (7 …, 2017
32017
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