Assoc. Prof. Dr. Muhammed Yasin DURGUN | Civil Engineering | Best Researcher Award

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Assoc. Prof. Dr. Muhammed Yasin DURGUN | Civil Engineering | Best Researcher Award

Assoc. Prof. Dr. Muhammed Yasin DURGUN , BartΔ±n University , Turkey.

Assoc. Prof. Dr. Muhammed Yasin DURGUN πŸŽ“ is a dedicated civil engineering researcher specializing in construction materials. He earned his Ph.D. from Istanbul Technical University in 2017, focusing on nano-silica in self-compacting concrete. With 21 SCI-indexed journal publications πŸ“š, he has made significant contributions in cement, concrete rheology, and sustainable materials. He has participated in over 10 research projects and reviewed 150+ papers for reputed journals πŸ§ͺ. Currently serving at BartΔ±n University, Dr. Durgun continues to guide graduate students, publish scholarly work, and advance innovations in durable, high-performance concrete technologies πŸ—οΈ.

Professional Profile

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Education and Experience

  • πŸ“˜ B.Sc. in Civil Engineering – 2007

  • πŸ§ͺ M.Sc. in Construction Materials – 2011

  • πŸŽ“ Ph.D. in Construction Materials (Nano-Silica in SCC) – 2017

  • πŸ§‘β€πŸ« Research Assistant, Istanbul Technical University – 2008–2017

  • πŸ‘¨β€πŸ« Assistant Professor, BartΔ±n University – 2018–2021

  • πŸŽ–οΈ Associate Professor, BartΔ±n University – 2021–Present

Suitability Summary

Associate Prof. Dr. Muhammed Yasin Durgun is a highly qualified and deserving candidate for the Best Researcher Award in recognition of his extensive contributions to the field of civil engineering materials and concrete technology. With a robust academic foundation, Dr. Durgun earned his Ph.D. from Istanbul Technical University, where he explored the role of nano-silica in enhancing the rheological behavior of self-compacting concreteβ€”a subject that remains highly relevant to sustainable construction practices.

Professional DevelopmentΒ 

Dr. Durgun has cultivated a robust academic and professional portfolio through his engagement in multidisciplinary concrete technology research 🧱. His work explores fresh concrete rheology, rebar corrosion, alkali-activated binders, and geopolymer development 🌍. He has supervised graduate theses, delivered advanced courses πŸ§‘β€πŸŽ“, authored 6 book chapters, and presented in 39 international conferences 🌐. Actively involved in reviewing top-tier SCI-indexed journal submissions πŸ“‘, he remains a respected peer reviewer and academic contributor. A member of ACI (American Concrete Institute) πŸ›οΈ, he consistently expands his professional network while advancing the understanding of durable and eco-friendly construction solutions.

Research FocusΒ 

Dr. Muhammed Yasin DURGUN focuses on sustainable and high-performance civil engineering materials πŸ—οΈ. His key interests include cement chemistry, fresh and hardened concrete behavior, self-consolidating concrete, and rheology of cementitious systems. He explores the use of nano-materials, blast furnace slag, geopolymers, and alkali-activated binders to enhance durability, workability, and structural integrity πŸ’§. His research also investigates rebar corrosion, microstructural analysis, and the integration of industrial by-products into concrete mixes ♻️. These studies aim to improve concrete’s sustainability and performance under varied environmental conditions, supporting green construction practices and infrastructure longevity 🌱.

Awards and Honors

  • πŸ₯‡ Completed TUBITAK 1001-funded project on Nano-Silica in SCC

  • πŸ§ͺ Researcher in multiple nationally funded materials science projects

  • πŸ“š Reviewer for 150+ SCI-indexed journal articles

  • πŸ—οΈ 21 SCI-indexed journal publications in top international journals

  • 🎀 39 international conference presentations

  • πŸ“– 6 book chapters in civil and materials engineering

  • πŸ§‘β€πŸ« Supervised multiple graduate theses (M.Sc. and Ph.D.)

  • πŸŽ“ Delivered 18 courses in undergraduate and graduate education

  • πŸ›οΈ Member of American Concrete Institute (ACI)

Publication Top Notes

  • High temperature resistance of concretes with GGBFS, waste glass powder, and colemanite ore wastes after different cooling conditions
    πŸ“Œ Authors: MY Durgun, AH SevinΓ§
    πŸ“Œ Journal: Construction and Building Materials, Vol. 196, pp. 66–81, 2019
    πŸ“Œ Citations: 73
    πŸ” Focus: Evaluates thermal resistance and residual mechanical properties of concrete containing GGBFS, glass powder, and colemanite after exposure to high temperatures and varying cooling regimes.

  • Investigation of durability properties of concrete pipes incorporating blast furnace slag and ground basaltic pumice as fine aggregates
    πŸ“Œ Authors: H BΔ±nΔ±ci, MY Durgun, T RΔ±zaoğlu, M KoluΓ§olak
    πŸ“Œ Journal: Scientia Iranica, Vol. 19, No. 3, pp. 366–372, 2012
    πŸ“Œ Citations: 72
    πŸ” Focus: Examines the durability performance of concrete pipes using alternative fine aggregates like slag and pumice.

  • Rheological and fresh properties of reduced fine content self-compacting concretes produced with different particle sizes of nano SiOβ‚‚
    πŸ“Œ Authors: MY Durgun, HN Atahan
    πŸ“Œ Journal: Construction and Building Materials, Vol. 142, pp. 431–443, 2017
    πŸ“Œ Citations: 57
    πŸ” Focus: Investigates how nano-silica particle size affects rheology and fresh behavior in self-compacting concrete with low fine content.

  • A Taguchi approach for investigating the engineering properties of concretes incorporating barite, colemanite, basaltic pumice and ground blast furnace slag
    πŸ“Œ Authors: AH Sevinc, MY Durgun, M Eken
    πŸ“Œ Journal: Construction and Building Materials, Vol. 135, pp. 343–351, 2017
    πŸ“Œ Citations: 52
    πŸ” Focus: Utilizes Taguchi statistical methods to evaluate mechanical and durability properties of concrete with multiple industrial waste additions.

  • Effect of high temperature on polypropylene fiber-reinforced mortars containing colemanite wastes
    πŸ“Œ Authors: MY Durgun, S Γ–zen, K Karakuzu, V Kobya, SH Bayqra, et al.
    πŸ“Œ Journal: Construction and Building Materials, Vol. 316, Article ID 125827, 2022
    πŸ“Œ Citations: 50
    πŸ” Focus: Studies thermal stability and post-fire performance of polypropylene fiber-enhanced mortars with colemanite.

  • Strength, elastic and microstructural properties of SCCs with colloidal nano silica addition
    πŸ“Œ Authors: MY Durgun, HN Atahan
    πŸ“Œ Journal: Construction and Building Materials, Vol. 158, pp. 295–307, 2018
    πŸ“Œ Citations: 42
    πŸ” Focus: Explores how colloidal nano-silica modifies strength, elasticity, and microstructure in self-compacting concretes.

  • Corrosion of basaltic pumice, colemanite, barite and blast furnace slag coated rebars in concretes
    πŸ“Œ Authors: H Binici, O Aksogan, MY Durgun
    πŸ“Œ Journal: Construction and Building Materials, Vol. 37, pp. 629–637, 2012
    πŸ“Œ Citations: 42
    πŸ” Focus: Assesses corrosion behavior of rebars coated with industrial waste materials in various concrete matrices.

  • Properties of high-calcium fly ash-based geopolymer concretes improved with high-silica sources
    πŸ“Œ Authors: AH SevinΓ§, MY Durgun
    πŸ“Œ Journal: Construction and Building Materials, Vol. 261, Article ID 120014, 2020
    πŸ“Œ Citations: 38
    πŸ” Focus: This study explores the performance of geopolymer concretes produced from high-calcium fly ash, enhanced with high-silica materials such as silica fume and nano-silica. Results show improved mechanical strength, workability, and microstructure, contributing to sustainable binder development and reducing reliance on Portland cement.

Conclusion

With a strong record of scholarly excellence, impactful research, and dedicated mentorship, Associate Prof. Dr. Muhammed Yasin Durgun exemplifies the ideals of a leading academic in civil engineering. His continued contributions to the advancement of sustainable and high-performance construction materials make him an outstanding candidate for the Best Researcher Award.

Dr. Bahram Ahadi | 3D concrete printing | Best Researcher Award

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Dr. Bahram Ahadi | 3D concrete printing | Best Researcher Award

Dr. Bahram Ahadi , Universidad PolitΓ©cnica de Madrid , Iran.

Dr. Bahram Ahadi πŸŽ“ is a dedicated PhD candidate in Civil Engineering at the Polytechnic University of Madrid πŸ‡ͺπŸ‡Έ, specializing in technological innovation in construction πŸ—οΈ. His research focuses on the use of Shape Memory Alloys (SMAs) in 3D concrete printing πŸ§±πŸ€–. With a solid academic foundation and teaching experience at Payame-Noor University πŸ“š, Bahram has contributed to several international conferences and journals 🌍✍️. Passionate about digital fabrication and structural innovation, he blends engineering knowledge with practical advancements. He actively collaborates with experts across disciplines and is committed to enhancing sustainable and intelligent building practices πŸŒ±πŸ›οΈ.

Professional Profile

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Education & ExperienceΒ 

πŸŽ“ Education:

  • πŸ“ PhD in Civil Engineering – Technological Innovation in Building (2021–Present), Polytechnic University of Madrid

  • πŸ“ M.Sc. in Civil Engineering – Road and Transportation (2011–2013), Imam Khomeini International University

  • πŸ“ B.Sc. in Civil Engineering (2007–2011), University of Guilan

πŸ‘¨β€πŸ« Teaching Experience (2014–2017):

  • πŸ‘· Structures Analysis 2

  • πŸ—οΈ Construction Design 1

  • 🚜 Construction Machinery

  • 🧠 Value Engineering

  • πŸ§ͺ Materials and Construction Methods + Laboratory

  • πŸ“‹ Project Management Standards

πŸ”¬ Research Contributions:

  • πŸ›οΈ Reinforcement of 3D concrete printing with SMAs

  • πŸ‘£ Pedestrian behavior modeling with cellular automata

  • ✈️ Airline demand diversion modeling

  • 🏫 Safety prioritization in educational centers

Summary Suitability

Dr. Bahram Ahadi is a distinguished nominee for the Best Researcher Award, recognized for his pioneering contributions to the field of civil engineering, particularly in the advancement of 3D concrete printing technology reinforced with Shape Memory Alloys (SMAs). His innovative research bridges the gap between digital fabrication and structural resilience, making him an exemplary candidate for this prestigious honor.

Professional DevelopmentΒ 

Dr. Bahram Ahadi continually enhances his professional skills through active participation in international conferences, including ICERI, INTED, and BIMIC 🌍🎀. His engagement with emerging technologies such as 3D concrete printing and Shape Memory Alloys keeps him at the forefront of construction innovation πŸ§±πŸ”§. He also collaborates with multidisciplinary teams to address complex engineering challenges πŸ‘¨β€πŸ”¬πŸ€. As an academic author and presenter, Bahram shares his findings widely to contribute to the global engineering community πŸ“˜πŸŒ. He is passionate about sustainable, efficient construction solutions and integrates new technologies with practical design approaches πŸ’‘πŸ—οΈ.

Research FocusΒ 

Bahram Ahadi’s research falls under the “Technological Innovations in Civil and Structural Engineering” category πŸ—οΈπŸ’‘. He explores cutting-edge construction techniques, particularly the integration of Shape Memory Alloys (SMAs) into 3D concrete printing (3DCP) πŸ§±πŸ”. His work emphasizes structural enhancement, digital fabrication, and smart material applications in building design πŸ€–πŸ“. By developing in-process reinforcement methods using Nitinol fibers, he aims to revolutionize construction practices with greater sustainability and resilience 🌱🏒. Bahram’s focus on finite element modeling and experimental validation ensures that his innovations have practical, real-world applications for the future of construction infrastructure πŸŒπŸ”.

Awards & HonorsΒ 

  • πŸ† Presenter at ICERI 2022 – Seville, Spain

  • πŸ† Presenter at BIMIC 2022 & 2023 – Madrid, Spain

  • πŸ† Presenter at INTED 2023 – Valencia, Spain

  • πŸ† Presenter at CITE 2023 – Madrid, Spain

  • πŸ† Publication in Buildings MDPI 2025, Volume 15, Issue 10, Article 1721

  • πŸ… Recognized for early contributions to 3D Concrete Printing with SMAs

Publication Top Notes

  • Ahadi, B., & Lopez, M. V. (2022).
    Use of Nitinol-Shape Memory Alloy in the Reinforcement of 3D Concrete Printing Industry.
    ICERI2022 Proceedings, pp. 7470–7479.
    πŸ“ Seville, Spain | πŸ›οΈ International Conference of Education, Research and Innovation (ICERI)

  • Lopez, M. M. V., & Ahadi, B. (2023).
    Development of Demand Diversion Model from Conventional Construction Methods to 3D Concrete Printing (3DCP).
    INTED2023 Proceedings, pp. 4175–4185.
    πŸ“ Valencia, Spain | πŸ›οΈ International Technology, Education and Development Conference (INTED)

  • Ahadi, B., & Lopez, M. V. (2023).
    Development of Demand Diversion Model from Conventional Construction Methods to 3D Concrete Printing (3DCP).
    πŸ“ Valencia, Spain | πŸ›οΈ International Technology, Education and Development Conference (INTED)

  • Ahadi, B., Lopez, M. V., & Daryakenari, F. G. (2023).
    Use of Nitinol Fibers in the Reinforcement of 3D Concrete Printing / Uso de Fibras de Nitinol en el Refuerzo de ImpresiΓ³n 3D de HormigΓ³n.
    πŸ“ Madrid, Spain | πŸ›οΈ BIMIC 2023 – Building Information Modeling International Conference

  • Ahadi, B., & Lopez, M. V. (2022).
    A New Method for Reinforce and Design of 3D Concrete Printing (3DCP): Considering Structural Frames / Un Nuevo MΓ©todo para Reforzar y DiseΓ±ar la ImpresiΓ³n 3D de HormigΓ³n (3DCP).
    πŸ“ Madrid, Spain | πŸ›οΈ BIMIC 2022 – Building Information Modeling International Conference

Conclusion

Dr. Bahram Ahadi has made outstanding strides in academic research and real-world engineering challenges. His work not only contributes to scientific literature but also redefines practical methods in modern construction. These qualities make him exceptionally suitable for the Best Researcher Awardβ€”a recognition that would honor his dedication, impact, and future promise in engineering research.