Ed-Dariy Yasmina | Concrete | Research Excellence Award

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Assist. Prof. Dr. Ed-Dariy Yasmina | Concrete | Research Excellence Award

Assistant Professor | National School of Architecture | Morocco

Assist. Prof. Dr. Yasmina ED-DARIY is an accomplished researcher in civil and environmental engineering, with extensive expertise in structural analysis and design, construction materials, geotechnical studies, building acoustics, environmental impact assessments, thermal and energy efficiency, and the strengthening of reinforced concrete using fiber-based composites. Her research has focused on sustainable construction and innovative concrete reinforcement methods, particularly the use of natural fibers such as jute for enhancing the mechanical performance of concrete members. She has contributed significantly to the understanding of the effects of alkali treatments and curing conditions on jute fiber-reinforced concrete, as well as the behavior of concrete cylinders and square columns strengthened with jute fiber-reinforced polymer (JFRP) composites. Her publications in peer-reviewed journals and presentations at international conferences reflect her commitment to advancing knowledge in concrete strengthening techniques using both synthetic and natural composites. Beyond her technical research, Dr. ED-DARIY actively engages in community and professional initiatives, having founded the Cultural Club at Centre Ajial and the Civil Engineering Club at FST Tangier, and served as Secretary-General of the Astronomy Association of Tangier. She has also organized outreach programs and events for orphaned children, demonstrating a strong commitment to social responsibility and the promotion of science in society. Her work exemplifies excellence in research, technical innovation, and societal impact, making her a highly deserving candidate for recognition through prestigious awards in research and innovation.

Profile: Scopus  | Google Scholar | ResearchGate

Featured Publications

  • Ed-Dariy, Y., Lamdour, N., Cherradi, T., Rotaru, A., Barbuta, M., & Mihai, P. (2020). Effect of alkali treatment of jute fibers on the compressive strength of normal-strength concrete members strengthened with JFRP composites. 淡江理工學刊, 23(4), 677–685.

  • Ed-Dariy, Y., Lamdouar, N., Cherrad, T., Rotaru, A., Barbuta, M., & Mihai, P. (2021). The influence of the curing conditions on the behavior of jute fibers reinforced concrete cylinders. Periodica Polytechnica Civil Engineering, 65(4), 1162–1173.

  • Ed-Dariy, Y., Lamdour, N., Cherradi, T., Rotaru, A., Barbuta, M., Mihai, P., … (2020). The behavior of concrete cylinders confined by JFRP composites: Effect of KOH solution. In 5th World Congress on Civil, Structural, and Environmental Engineering.

  • Ed-Dariy, Y., Lamdouar, N., Cherradi, T., Rotaru, A., Barbuta, M., … (2020). Experimental investigation of the effects of NaOH and KOH solution on the behavior of concrete square columns reinforced by JFRP composites. In 5th World Congress on Civil, Structural, and Environmental Engineering.

  • Ed-Dariy, Y., El Bhiri, B., & Deifalla, A. (2025). A review of concrete strengthening methods using synthetic and natural composites. Engineering Proceedings, 112(1), 35.

Harsha Sai | Concrete | Best Researcher Award

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Mr. Harsha Sai | Concrete | Best Researcher Award

Mr. Harsha Sai | KL University | India

Mr. Harsha Sai is a dedicated structural engineering researcher whose work reflects strong technical depth, practical relevance, and a clear focus on advancing sustainable and high-performance construction materials. His research contributions span hybrid fiber–reinforced concrete, fly ash–based material optimization, GFRP and steel reinforcement behavior, and structural performance enhancement in diverse conditions. He has authored multiple peer-reviewed publications addressing mechanical behavior, flexural performance, and material durability, including studies on M40 concrete incorporating hybrid fibers and fly ash, comparative flexural analysis of GFRP and steel rebars in modified concrete mixes, and performance assessments of building designs on complex terrains. His work demonstrates a commitment to improving structural reliability, sustainability, and cost-effective engineering solutions. Alongside his research, he has presented at conferences and actively engaged in professional development through advanced software certifications and workshops related to sustainable construction, corrosion-free infrastructure, and emerging technologies such as 3D-printed concrete. He is proficient in advanced structural design and analysis tools including AutoCAD, ETABS, REVIT, and STAAD.Pro, enabling seamless integration between analytical research and practical engineering application. His experience in design consultancy, secondary steel detailing, and infrastructure component development further strengthens his ability to translate research insights into real-world engineering solutions. Through consistent scholarly output, hands-on project involvement, and participation in industry knowledge-sharing platforms, he has demonstrated a strong commitment to contributing to modern structural engineering challenges. His profile reflects an evolving researcher with the capability to drive innovation, support sustainable development goals, and contribute meaningful advancements to the field of structural engineering.

Profile: Scopus | Google Scholar | ResearchGate

Featured Publications

Khan, A. R., Rajesh, B., Prakash, B. J. P., & Varma, V. H. S. C. H. S. (2019). Design of a gravity dam. IJRAR – International Journal of Research and Analytical Reviews, 6(1), 4.

Sai, V. H., Lingeshwaran, N., Pratheba, S., & L. B. V. (2025). Enhanced mechanical and flexural performance of M40 concrete with hybrid fibers and fly ash replacement. Procedia Structural Integrity, 70, 509–516.

Vudata Harsha Sai, P. J., Lingeshwaran, N., Prasanna, P. K., & George Fernandez Raj, A. (2025). Flexural behavior of GFRP rebars and steel rebars with polypropylene fibers and fly ash-based concrete. Research on Engineering Structures and Materials, 17.

Navaneeth, L. N. V. H. S., Sravani, C., Koteswara Rao, & Thiyagarajan. (2025). Optimizing building design on sloping terrain: A comparative analysis of G+10 storied pre-engineered buildings on 10-degree slope and flat ground. International Journal of Materials, Mechanics, Mechatronics and Engineering, 2025.

Alper Bideci | Cementitious Materials | Best Review Paper Award

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Prof. Dr. Alper Bideci | Cementitious Materials | Best Review Paper Award

Academician | Düzce University | Turkey

Prof. Dr. Alper Bideci is a distinguished researcher specializing in building materials, with a particular focus on concrete, cement, composite materials, and coated aggregates. His research has significantly advanced the understanding of sustainable construction materials, especially in the development and application of polymer-coated lightweight aggregates and concretes that enhance mechanical performance, durability, and environmental efficiency. Dr. Bideci’s investigations encompass experimental and analytical studies on waste materials, polymer modifications, and the use of alternative aggregates to promote eco-friendly construction practices. His published works in leading journals such as Construction and Building Materials and Composites Part B: Engineering explore critical topics including the effects of hemp fibers on mortar performance, the influence of polymer admixtures on high-strength concretes, and life cycle assessment analyses of composite façade panels. Through his studies, he provides valuable insights into the chemical, mechanical, and petrographic characteristics of traditional and modern building materials, contributing to the advancement of sustainable material science and heritage restoration techniques. His findings on polymer-coated pumice aggregates and the utilization of industrial and agricultural waste materials in concrete have provided innovative solutions for both modern construction and environmental conservation. By integrating experimental rigor with sustainability principles, Dr. Bideci’s work bridges the gap between performance optimization and ecological responsibility, positioning him as a leading figure in the global research community dedicated to green construction technologies and advanced building material innovations.

Profile:  Scopus  |  ORCID Google Scholar  |  ResearchGate

Featured Publications

Çomak, B., Bideci, A., & Bideci, Ö. S. (2018). Effects of hemp fibers on characteristics of cement-based mortar. Construction and Building Materials, 169, 794–799.

Doğan, M., & Bideci, A. (2016). Effect of Styrene Butadiene Copolymer (SBR) admixture on high-strength concrete. Construction and Building Materials, 112, 378–385.

Bideci, A., Öztürk, H., Salli Bideci, Ö., & Emiroğlu, M. (2017). Fracture energy and mechanical characteristics of self-compacting concretes including waste bladder tyre. Construction and Building Materials, 149, 669–678.

Yılmaz, E., Arslan, H., & Bideci, A. (2019). Environmental performance analysis of insulated composite facade panels using life cycle assessment (LCA). Construction and Building Materials, 202, 806–813.

Bideci, Ö. S., Bideci, A., Gültekin, A. H., Oymael, S., & Yildirim, H. (2014). Polymer coated pumice aggregates and their properties. Composites Part B: Engineering, 67, 239–243.