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Research profile
As of November 2024, Morteza Tayebi is a doctoral researcher in the Department of the Built Environment at TU/e. His current research focuses on innovative binder systems and the reuse of industrial waste materials in construction, aiming to reduce the construction industry's carbon footprint and bridge the gap between research and practical application.
In July 2024, Morteza earned his M.Sc. in Civil Engineering from Politecnico di Milano. His thesis was part of a collaborative research project involving Politecnico di Milano (Italy), DTU (Denmark), and the University of Oulu (Finland). His research examined the hydration, fresh, and hardened properties of MgO-based binders with polycarboxylate ether-based superplasticizers, offering valuable contributions to sustainable material development in civil engineering.
During his undergraduate studies, Morteza conducted research on steel fiber-reinforced concrete (SFRC) with nylon aggregate, particularly its performance after fire exposure. This work resulted in several publications in reputable journals, including Cement and Building Materials (CBM), Journal of Building Materials (JOB), Structures, and Archive of Civil and Mechanical Engineering.
His goal is to make meaningful contributions to sustainable urban development and the global effort to mitigate climate change through engineering innovations.
Quote
To become a distinguished researcher, one needs daily improvement in both observation and listening.
Expertise related to UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):
Education/Academic qualification
Civil engineering, Master, Effects of Superplasticizers on MgO-Based Binders, Politecnico di Milano
15 Sept 2021 → 17 Jul 2024
Award Date: 17 Jul 2024
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Collaborations and top research areas from the last five years
Projects
- 1 Active
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SLAK: Future Slags from Fossil-free Steelmaking & their Sustainable Use in Building Materials
Schollbach, K. (Project Manager), Liedtke, M. (Project member), Vacancy PD (Project member), Tayebi, M. (Project member) & Keshavarz, S. (Project member)
1/01/23 → 30/04/29
Project: Third tier
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Exploring superplasticizers impact on MgO-based binder
Tayebi, M., 17 Jul 2024, Politecnico di Milano.Research output: Thesis › Phd Thesis 4 Research NOT TU/e / Graduation NOT TU/e)
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The effect of sulfuric acid attack on mechanical properties of steel fiber-reinforced concrete containing waste nylon aggregates: Experiments and RSM-based optimization
Arjomandi, A., Mousavi, R., Tayebi, M. (Corresponding author), Nematzadeh, M. (Corresponding author), Gholampour, A., Aminian, A. & Gencel, O., 1 Apr 2023, In: Journal of Building Engineering. 64, 24 p., 105500.Research output: Contribution to journal › Article › Academic › peer-review
51 Citations (Scopus) -
Post-fire impact behavior and durability of steel fiber-reinforced concrete containing blended cement–zeolite and recycled nylon granules as partial aggregate replacement
Nematzadeh, M. (Corresponding author), Nazari, A. & Tayebi, M., 2022, In: Archives of Civil and Mechanical Engineering. 22, 25 p., 5.Research output: Contribution to journal › Article › Academic › peer-review
30 Citations (Scopus) -
Effect of hot-compacted waste nylon fine aggregate on compressive stress-strain behavior of steel fiber-reinforced concrete after exposure to fire: Experiments and optimization
Tayebi, M. & Nematzadeh, M. (Corresponding author), 17 May 2021, In: Construction and Building Materials. 284, 21 p., 122742.Research output: Contribution to journal › Article › Academic › peer-review
36 Citations (Scopus) -
Post-fire flexural performance and microstructure of steel fiber-reinforced concrete with recycled nylon granules and zeolite substitution
Tayebi, M. & Nematzadeh, M. (Corresponding author), Oct 2021, In: Structures. 33, p. 2301-2316 16 p.Research output: Contribution to journal › Article › Academic › peer-review
41 Citations (Scopus)