Yana Mourdjeva | Engineering | Best Researcher Award

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Mrs. Yana Mourdjeva | Engineering | Best Researcher Award

Institute of Metal Science, Equipment and Technologies with Hydro- and Aerodynamics Centre – BAS | Bulgaria

Mrs. Yana Mourdjeva is a distinguished researcher at the Institute of Metal Science, Equipment, and Technologies with the Center for Hydro- and Aerodynamics “Acad. A. Balevski” at the Bulgarian Academy of Sciences (IMSETHC-BAS), serving in the Laboratory of Transmission Electron Microscopy (LMTC). She holds a Master’s degree in Machine Engineering from the Technical University of Sofia and a Ph.D. in Material Science and Technology of Machine Building Materials from IMSETHC-BAS. Her research focuses on materials science, characterization of metals and alloys, transmission electron microscopy, hydrogen embrittlement, nanomaterials, and superplasticity. With an h-index of 5, she has authored 18 scientific publications, including 8 with impact factors, and her work has received 64 citations. In recent years, she has actively contributed to projects funded by the Bulgarian National Science Fund and the EU Next Generation initiative, exploring advanced aluminum composites, amorphous alloys, and hydrogen embrittlement mechanisms. She has participated in international Erasmus collaborations at the Metallurgy Institute in Krakow, Poland, further enhancing her expertise in materials characterization. Her research outcomes have appeared in reputed journals such as Metals and Journal of Materials Engineering and Performance, strengthening the field’s understanding of microstructural evolution and performance of metallic materials.

Profiles : Scopus | Orcid

Featured Publications

Dyakova, V., Yanachkov, B., Valuiska, K., Mourdjeva, Y., Krastev, R., Simeonova, T., Kolev, K., Lazarova, R., & Katzarov, I. (2025). The impact of hydrogen charging time on microstructural alterations in pipeline low-carbon ferrite–pearlite steel. Metals. Multidisciplinary Digital Publishing Institute.

Lazarova, R., & Mourdjeva, Y. (2025, May 7). Microstructural explanation of the mechanical properties of Al–GNPs composites with Al₄C₃ produced by powder metallurgy method and extrusion. Journal of Information Systems Engineering and Management, 10(43s).

Lazarova, R., Anestiev, L., Mourdjeva, Y., Valuiska, K., & Petkov, V. (2025, March 5). Microstructural evolution, strengthening mechanisms, and fracture behavior of aluminum composites reinforced with graphene nanoplatelets and in situ–formed nano-carbides. Metals, 15(3).

Dyakova, V., Mourdjeva, Y., Simeonova, T., Krastev, R., Atanasov, I., Drenchev, L., & Kavardjikov, V. (2024). Microstructural analysis of 40X steel after strain-controlled fatigue. Journal of Theoretical and Applied Mechanics (Bulgaria).

Yanachkov, B., Mourdjeva, Y., Valuiska, K., Dyakova, V., Kolev, K., Kaleicheva, J., Lazarova, R., & Katzarov, I. (2024). Effect of hydrogen content on the microstructure, mechanical properties, and fracture mechanism of low-carbon lath martensite steel. Metals, 14.

Dyakova, V., Cherneva, S., Mourdjeva, Y., & Kostova, Y. (2024, June 30). Influence of the content of Ni as minority alloying element on the microstructure and mechanical properties of amorphous and ultrafine crystalline Al–Cu–Mg–Ni alloys. Proceedings of the Bulgarian Academy of Sciences.

Dyakova, V., Mourdjeva, Y., Spasova, H., Stefanov, G., & Kostova, Y. (2023). Effect of Cu as minority alloying element on glass forming ability and crystallization behavior of rapidly solidified Al–Si–Ni ribbons. Vide. Tehnologija. Resursi – Environment, Technology, Resources.

Dyakova, V., Mourdjeva, Y., Marinkov, N., Stefanov, G., Kostova, Y., & Gyurov, S. (2023). Effect of Ni as minority alloying element on glass forming ability and crystallization behavior of rapidly solidified Al–Cu–Mg–Ni ribbons. Journal of Chemical Technology and Metallurgy, 58(5).

Kolev, M., Lazarova, R., Petkov, V., Mourdjeva, Y., & Nihtianova, D. (2023). Investigating the effects of graphene nanoplatelets and Al₄C₃ on the tribological performance of aluminum-based nanocomposites. Metals, 13.

Mourdjeva, Y., Karashanova, D., Nihtianova, D., & Lazarova, R. (2023). Microstructural characteristics of Al₄C₃ phase and the interfaces in Al/graphene nanoplatelet composites and their effect on the mechanical properties. Journal of Materials Engineering and Performance.

Lazarova, R., Mourdjeva, Y., Nihtianova, D., Stefanov, G., & Petkov, V. (2022). Fabrication and characterization of aluminum–graphene nanoplatelets–nano-sized Al₄C₃ composite. Metals, 12(12).

Dyakova, V., Stefanov, G., Penkov, I., Kovacheva, D., Marinkov, N., Mourdjeva, Y., & Gyurov, S. (2022). Influence of Zn on glass forming ability and crystallization behaviour of rapidly solidified Al–Cu–Mg (Zn) alloys. Journal of Chemical Technology and Metallurgy, 57(3).

Dyakova, V., Stefanov, G., Kovacheva, D., Mourdjeva, Y., Marinkov, N., Penkov, I., & Georgiev, J. (2022). Influence of Zr and Zn as minority alloying elements on glass forming ability and crystallization behavior of rapidly solidified Al–Cu–Mg ribbons. AIP Conference Proceedings, 2449.

Lazarova, R., Mourdjeva, Y., Petkov, V., Marinov, M., Dimitrova, R., & Shuleva, D. (2022, December). Microstructure and mechanical properties of aluminum–graphene composites produced by powder metallurgical method. Journal of Materials Engineering and Performance, 31(12).

Chanh Vuong-Dinh | Engineering | Best Researcher Award

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Dr. Chanh Vuong-Dinh | Engineering | Best Researcher Award

Duy Tan university | Vietnam

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Early Academic Pursuits

Dr. Chanh Vuong-Dinh’s academic journey began with a strong foundation in engineering mechanics at Vietnam National University, where he developed a keen interest in the fundamentals of structural behavior and material mechanics. His early studies shaped his analytical approach and laid the groundwork for advanced exploration in computational engineering. With encouragement from academic mentors and recognition for his academic excellence, he pursued higher studies abroad to refine his expertise in civil and environmental engineering.

Professional Endeavors

Dr. Vuong-Dinh has combined industry practice and academic scholarship to enrich his professional career. Before entering academia, he worked as a pipeline design engineer at Petro Vietnam Engineering and as a pressure vessel design engineer at Hitachi Zosen Vietnam, where he gained practical experience in structural integrity and mechanical design. Transitioning into academia, he joined the Duy Tan Research Institute for Computational Engineering as a lecturer and researcher, where he continues to contribute to both teaching and research with a focus on computational mechanics.

Contributions and Research Focus

At the core of his research lies the advancement of computational modeling for complex engineering problems. His work specializes in finite element analysis, fracture mechanics, damage mechanics, and biomechanics, with particular emphasis on quasi-brittle materials, composites, and soft tissues. He has made significant contributions to the development of smoothing gradient damage models, enabling more accurate predictions of fracture behavior and failure mechanisms. His research extends to numerical methods for engineering, addressing both theoretical modeling and applied problem-solving.

Accolades and Recognition

Throughout his academic career, Dr. Vuong-Dinh has received several prestigious honors that reflect his scholarly dedication. His studies in Japan were supported by the Japanese Government MEXT Scholarship, a testament to his academic potential and research capability. Earlier in his academic path, he was awarded the Encouragement Scholarship at Vietnam National University for consistent academic excellence. These recognitions highlight his commitment to advancing civil engineering research at both national and international levels.

Impact and Influence

The influence of Dr. Vuong-Dinh’s research can be seen in the engineering community through his numerous publications in leading international journals such as Engineering Fracture Mechanics, Theoretical and Applied Fracture Mechanics, Composite Structures, and Computers & Structures. His contributions have advanced the understanding of fracture phenomena in brittle and composite materials, influencing both theoretical frameworks and engineering applications. Furthermore, his participation in global conferences and workshops has allowed him to share his expertise widely and engage in collaborative discussions with peers worldwide.

Legacy and Future Contributions

Dr. Vuong-Dinh’s scholarly output demonstrates a balance between theoretical innovation and practical application. By developing advanced computational models for structural analysis and damage prediction, his research provides essential tools for engineers addressing challenges in infrastructure, biomechanics, and material sciences. Moving forward, his focus on interdisciplinary applications, including biomechanics and soft tissue modeling, promises to expand the scope of his impact. His role as an academic mentor ensures the cultivation of future researchers who will further these developments.

Publications

Enhanced local damage model with polygonal elements for transient thermoelastic fracture analysis
Authors: Du Dinh Nguyen, Nguyen Hoang Le, Chanh Dinh Vuong, Minh Ngoc Nguyen, Tinh Quoc Bui
Journal: Mechanics of Materials
Publisher: Elsevier
Year: 2025

Multi-scale concurrent topology optimization of lattice structures with single type of composite micro-structure subjected to design-dependent self-weight loads
Authors: Minh Ngoc Nguyen, Duy Vo, Chanh Dinh Vuong, Tinh Quoc Bui
Journal: Computers & Structures
Publisher: Elsevier
Year: 2025

Transgranular and intergranular fracture in polycrystalline materials with the anisotropic smoothing gradient damage model
Authors: Chanh Dinh Vuong, Tinh Quoc Bui
Journal: Meccanica
Publisher: Springer
Year: 2025

Simulation of failure in fiber-reinforced composites and polycrystalline materials: A novel anisotropic local damage approach
Authors: Quan Nhu Tran, Minh Ngoc Nguyen, Chanh Dinh Vuong, Tinh Quoc Bui
Journal: Composite Structures
Publisher: Elsevier
Year: 2025

An enhanced local damage model for 2D and 3D quasi-brittle fracture: ABAQUS-FEM implementation and comparative study on the effect of equivalent strains
Authors: Quan Nhu Tran, Minh Ngoc Nguyen, Chanh Dinh Vuong, Nhung Nguyen, Tinh Quoc Bui
Journal: Advances in Engineering Software
Publisher: Elsevier
Year: 2025

Conclusion

Dr. Chanh Vuong-Dinh has built a distinguished career marked by academic rigor, professional versatility, and impactful research in computational mechanics. His journey from early studies in Vietnam to advanced research in Japan and current academic contributions at Duy Tan University reflects a dedication to bridging theory and practice in engineering. With his continued pursuit of innovative methods for understanding and solving complex structural problems, he stands as a promising leader in the field, contributing to both the advancement of scientific knowledge and the training of future generations of engineers.

Sanboh Lee | Materials Science | Best Researcher Award

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Prof. Sanboh Lee | Materials Science | Best Researcher Award

National Tsing Hua University | Taiwan

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🌱 Early Academic Pursuits

Prof. Sanboh Lee's journey into materials science began with a BS in Physics from Fu Jen Catholic University (1970), followed by an MS in Physics from National Tsing Hua University (1972). His academic curiosity led him to pursue a PhD in Materials Science at the University of Rochester (1980), where he built a strong foundation in material properties and mechanics.

💼 Professional Endeavors

With a career spanning decades, Prof. Lee has been a Professor at National Tsing Hua University (1985-2018) and served as an Adjunct Professor at the University of Science and Technology Beijing since 2005. His global research contributions include visiting scholar roles at Lehigh University and guest scientist positions at the National Institute of Standards and Technology (NIST). His consultancy work with institutions like the University of Rochester, Oak Ridge National Laboratory, and the University of Tennessee reflects his expertise in materials engineering.

🔬 Contributions and Research Focus

Prof. Lee’s research spans dislocation mechanics, optical and mechanical properties of polymers, hydrogen transport in low-carbon steels, and semiconductor devices. His groundbreaking studies include:

  • Dislocation and crack interactions in materials.
  • Gamma-ray effects on optical and mechanical properties.
  • Nano-imprint technology and micro-machining innovations.
  • Diffusion-induced and thermal stresses in materials.
  • Polymers and composite materials with enhanced mechanical and optical properties.
    With over 280 journal publications and 150 conference presentations, Prof. Lee has significantly shaped modern material science.

🏆 Accolades and Recognition

Prof. Lee has received numerous international awards, including:

  • Lifetime Achievement Award (2022) by VDGOOD® Professional Association.
  • SAS Eminent Fellow Membership (2021).
  • Fellow, Materials Research Society-Taiwan (2009).
  • Tsing Hua Chair Professor (2006-).
  • Fellow, ASM International, USA (2004) for contributions to fracture mechanics and transport processes in metals and polymers.
  • Outstanding Special Research Fellow (2002) by the National Science Council of Taiwan.
  • Who’s Who in Science and Engineering and other global recognitions in research excellence.

🌍 Impact and Influence

As an influential figure in materials science, Prof. Lee has contributed to academic committees, international symposia, and editorial boards. He has been an advisor, editor, and organizer for numerous scientific events and research journals. His leadership roles in organizations such as TMS, Materials Chemistry and Physics, and the Asia Pacific Academy of Materials underscore his global impact in material research and engineering.

🔮 Legacy and Future Contributions

Prof. Lee’s pioneering work in materials science, fracture mechanics, and nanotechnology continues to inspire new generations of researchers. His advancements in nano-imprint technology, hydrogen transport, and semiconductor materials are paving the way for next-generation engineering applications. As a Professor Emeritus, his legacy endures through ongoing collaborations, mentorship, and research innovations that will influence future breakthroughs in materials engineering and nanotechnology.

Publicaations

📄 Kinetic Analysis of the Cracking Behavior in Methanol-Treated Poly(methyl methacrylate)/Functionalized Graphene Composites

  • Journal: Journal of Composites Science
  • Year: 2025
  • Authors: Bing-Hong Yang, Shou-Yi Chang, Yulin Zhang, Fuqian Yang, Sanboh Lee

📄 Cracking in UV-Irradiated Poly(methyl methacrylate)/Functionalized Graphene Composites: Solvent Effect

  • Journal: Journal of Polymer Research
  • Year: 2024
  • Authors: Bing-Hong Yang, Shou-Yi Chang, Yulin Zhang, Fuqian Yang, Sanboh Lee

📄 Analysis of the Thermal Aging Kinetics of Tallow, Chicken Oil, Lard, and Sheep Oil

  • Journal: Molecules
  • Year: 2024
  • Authors: Yun-Chuan Hsieh, Hao Ouyang, Yulin Zhang, Donyau Chiang, Fuqian Yang, Hsin-Lung Chen, Sanboh Lee

📄 Creep-Recovery Deformation of 304 Stainless-Steel Springs Under Low Forces

  • Journal: Mechanics of Materials
  • Year: 2024
  • Authors: Ming-Yen Tsai, Shou-Yi Chang, Yulin Zhang, Fuqian Yang, Sanboh Lee

📄 A Mechanical Model for Stress Relaxation of Polylactic Acid/Thermoplastic Polyurethane Blends

  • Journal: Journal of Composites Science
  • Year: 2024
  • Authors: Yi-Sheng Jhao, Hao Ouyang, Chien-Chao Huang, Fuqian Yang, Sanboh Lee

 

Zhengzhi Mu | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Zhengzhi Mu | Materials Science | Best Researcher Award

Jilin University | China

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Early Academic Pursuits 📚

Assoc. Prof. Dr. Zhengzhi Mu embarked on an extraordinary academic journey marked by excellence and interdisciplinary focus. He earned his Bachelor's degree in Food Science and Engineering (2009–2013) and continued to achieve a Ph.D. in Bionic Science and Engineering from Jilin University (2013–2019). His studies extended to the University of Michigan-Ann Arbor, where he served as a joint Ph.D. candidate in Chemical Engineering (2016–2018). These formative years laid the foundation for his expertise in biomimetic structures and bio-inspired composites, blending engineering principles with nature's ingenuity.

Professional Endeavors 🏢

Dr. Mu's career has been distinguished by diverse roles at leading institutions worldwide. After completing his Ph.D., he served as a postdoctoral researcher at Jilin University's School of Mechanical and Aerospace Engineering (2019–2022). He was a visiting scientist at RWTH Aachen University, Germany, in 2023, further enriching his expertise in material applications in mechanical engineering. His international engagements also include research at the Biointerfaces Institute, University of Michigan-Ann Arbor, emphasizing his commitment to global collaboration in bionic engineering.

Contributions and Research Focus 🧪

Dr. Mu's research interests encompass biomimetic structures, bio-inspired composites, and bionic engineering. His contributions include over 30 peer-reviewed publications with a Google Scholar citation count exceeding 900 and an h-index of 15. Noteworthy works like his 2023 review on lightweight structural biomaterials in Biomimetics reflect his dedication to advancing sustainable engineering inspired by nature. His innovations extend to patents, with 33 issued out of 45 applied, and pioneering contributions in interfacial reinforcement of carbon fiber composites and bio-inspired flexible strain sensors.

Accolades and Recognition 🏆

Dr. Mu has received numerous prestigious awards, including the High-level Talents designation in Jilin Province (2023) and the Outstanding Postdoctoral Research Fellow accolade at Jilin University (2021). His innovative work has been celebrated globally, with honors like the International Bionic Engineering Award (2019) and the National Excellent Ph.D. Dissertation Award in China (2019, 2020). These accolades underscore his exceptional contributions to bionic engineering and applied sciences.

Impact and Influence 🌍

As an active member of esteemed organizations such as the International Society of Bionic Engineering (ISBE) and the American Chemical Society (ACS), Dr. Mu plays a vital role in advancing the scientific community. His editorial responsibilities for journals like Biomimetics and Nanomaterials demonstrate his commitment to shaping the future of bionic research. His expertise has been showcased at prominent international conferences, where he has delivered influential presentations on bio-inspired innovations.

Legacy and Future Contributions 🌟

Assoc. Prof. Dr. Zhengzhi Mu's work stands at the intersection of science, engineering, and nature. His ongoing contributions to biomimetic materials and bionic systems hold promise for sustainable development and transformative technologies. As he continues to mentor emerging scientists and collaborate across disciplines, his legacy will inspire the next generation of researchers to harness nature's designs for innovative solutions.

 

Publications

📜 Bionic Inner-Tapered Energy Absorption Tube Featuring Progressively Enhanced Fold Deformation Mode
  Journal: Biomimetics
 Year: 2024
Authors: Shuang Zhang, Zhengzhi Mu, Wenda Song, Zhiyan Zhang, Hexuan Yu, Binjie Zhang, Zhiwu Han, Luquan Ren

📜 High-Toughness Epoxy-Based Composites with a Bioinspired Three-Dimensional Interconnected Skeleton for Photothermal Conversion Applications
  Journal: Nano Letters
Year: 2024
Authors: Zhiyan Zhang, Yufei Wang, Zhengzhi Mu, Wenda Song, Shuang Zhang, Jialve Sun, Hexuan Yu, Hanliang Ding, Shichao Niu, Zhiwu Han, et al.

📜 A Durable Triboelectric Nanogenerator with a Coaxial Counter-Rotating Design for Efficient Harvesting of Random Mechanical Energy
  Journal: Nano Energy
  Year: 2023
Authors: Ma, G.; Wang, D.; Wang, J.; Li, J.; Wang, Z.; Li, B.; Mu, Z.; Niu, S.; Zhang, J.; Ba, K., et al.

📜 Advanced Bio-Inspired Mechanical Sensing Technology: Learning from Nature but Going Beyond Nature
  Journal: Advanced Materials Technologies
Year: 2023
Authors: Xin, Q.; Zhang, J.; Han, Z.; Zhao, H.; Hou, T.; Liu, Y.; Niu, S.; Han, Q.; Mu, Z.; Li, B., et al.

📜 Bacteria Engineered with Intracellular and Extracellular Nanomaterials for Hierarchical Modulation of Antitumor Immune Responses
 Journal: Materials Horizons
Year: 2023
Authors: Song, P.; Han, X.; Li, X.; Cong, Y.; Wu, Y.; Yan, J.; Wang, Y.; Wang, X.; Mu, Z.; Wang, L., et al.

 

Guipeng Chen | Engineering | Best Researcher Award

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Dr. Guipeng Chen | Engineering | Best Researcher Award

Ocean University of China | China

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Early Academic Pursuits 📚

Dr. Guipeng Chen embarked on his academic journey with a Bachelor's degree in Civil Engineering from the China University of Petroleum, graduating in 2016. His passion for structural engineering led him to pursue both a Master’s (2016-2019) and a Ph.D. (2019-2023) in Structural Engineering at the Dalian University of Technology. During this time, Dr. Chen specialized in enhancing structural performance using Fiber-Reinforced Polymer (FRP) materials, focusing on composite structures incorporating FRP, concrete, and steel. His early academic endeavors laid a strong foundation for his future contributions in engineering research.

Professional Endeavors 🌍

In October 2023, Dr. Chen was appointed as a Lecturer at the College of Engineering at Ocean University of China. In this role, he is committed to educating the next generation of engineers while also advancing his research in structural performance improvements. Dr. Chen has been actively involved in both academia and applied research. His work spans the theoretical modeling of composite structures and practical applications of advanced materials like FRP in construction. His work experience and collaborations with experts in the field have equipped him with deep expertise in improving infrastructure resilience using cutting-edge materials. His role as a lecturer also allows him to mentor students and engage in leading research initiatives.

Contributions and Research Focus 🔬

Dr. Chen's primary research focus is on improving the structural performance of materials using Fiber-Reinforced Polymers (FRP). His work examines the behavior and mechanisms of composite structures incorporating FRP, concrete, and steel, exploring how these combinations enhance structural durability and strength. His research has produced numerous high-impact papers in renowned journals like Engineering Structures and Journal of Composites for Construction. Notably, Dr. Chen has contributed groundbreaking work on FRP-confined concrete, elliptical FRP-concrete-steel tubular columns, and the use of advanced materials to withstand cyclic and axial loading. Beyond theoretical research, Dr. Chen has been the principal investigator in multiple significant projects, including the Qingdao Postdoctoral Applied Research Project and the Shandong Provincial Natural Science Foundation. These projects aim to push the boundaries of material science and structural engineering.

Accolades and Recognition 🏆

Dr. Chen's academic excellence has been recognized with multiple prestigious awards. In 2022, he was awarded the National Scholarship and was named an Excellent Graduate of Liaoning Province, not once but twice, in 2018 and 2022. His growing expertise has earned him a place among the top-cited scientists globally, with a percentile rank of 2%. His career-long scientific impact, measured through an H-index of 11 on both Web of Science and Scopus, further cements his stature in the engineering community. Additionally, his academic contributions extend beyond research. Dr. Chen holds a position on the Youth Editorial Board of the Sustainable Structures journal, reflecting his influence on the future direction of structural engineering research.

Impact and Influence 🌟

With 16 SCI papers and over 396 citations on Google Scholar, Dr. Chen’s work is recognized both nationally and internationally. His research on the cyclic loading and performance of FRP-reinforced materials has profound implications for the construction of more resilient infrastructure, particularly in earthquake-prone regions. Dr. Chen has not only advanced engineering knowledge but also mentored and collaborated with future engineers and scientists, influencing their academic paths. His role as a researcher and lecturer allows him to shape the trajectory of his field and inspire the next generation of structural engineers.

Legacy and Future Contributions 🏛️

Dr. Guipeng Chen’s work is expected to continue pushing the boundaries of structural engineering. His research, particularly on the use of advanced FRP materials, has the potential to revolutionize how modern structures are built and maintained, making them more sustainable and resilient. With his growing portfolio of published works and ongoing projects, Dr. Chen is poised to make even greater contributions to the field in the years to come. As he continues his career at Ocean University of China, his influence will likely extend across new frontiers in material science and engineering, ensuring that his legacy as a pioneer in structural performance improvement endures for generations.

 

Publications

  • 📄 Static Performance of Pre-Fabricated and Cast-in-Place Joints Formed by Inserting Steel Secondary Beam into Concrete Girder
    Authors: Sun, X., Yang, S., Chen, G., Liu, Z., Yang, Q.
    Journal: Buildings
    Year: 2024
  • 📄 Seismic Performance of Elliptical FRP-Concrete-Steel Tubular Columns under Combined Axial Load and Reversed Lateral Load
    Authors: Zhang, B., Peng, Y., Gao, Y., Zhou, C., Zhang, N.
    Journal: Engineering Structures
    Year: 2023
  • 📄 Cyclically Loaded Elliptical FRP-Confined Concrete: Behavioral Characteristics and Modeling
    Authors: Chen, G., Wang, Y., Yu, T., Zhang, B., Zhang, Y.
    Journal: Engineering Structures
    Year: 2023
  • 📄 Elliptical FRP-Concrete-Steel Double-Skin Tubular Columns: Axial Behavior, Interaction Mechanism, and Modeling
    Authors: Chen, G., Wang, Y., Yu, T., Zhang, B., Han, B.
    Journal: Journal of Composites for Construction
    Year: 2022
  • 📄 Performance and Modeling of FRP-Steel Dually Confined Reinforced Concrete under Cyclic Axial Loading
    Authors: Chen, G., Wang, Y., Cai, G., Wan, B., Hao, Q.
    Journal: Composite Structures
    Year: 2022

 

Saeed Gholizadeh | Engineering | Best Researcher Award

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Prof. Saeed Gholizadeh | Engineering | Best Researcher Award

Urmia University | Iran

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Early Academic Pursuits

Prof. Saeed Gholizadeh began his academic journey at Urmia University, where he earned a B.Sc. in Civil Engineering in 2000. He continued his education at the University of Kerman, obtaining an M.Sc. in Structural Engineering in 2002. His master's thesis focused on the optimal design of structures using genetic algorithms and neural networks, under the supervision of Prof. Eysa Salajegheh. Prof. Gholizadeh pursued a Ph.D. in Structural Engineering at the same institution, completing his doctorate in 2009 with a dissertation on the optimum seismic design of structures using advanced artificial intelligence methods, again under the guidance of Prof. Eysa Salajegheh.

Professional Endeavors

Prof. Gholizadeh's academic career at Urmia University began in 2009 as an Assistant Professor in Structural Engineering. He was promoted to Associate Professor in 2013 and became a full Professor in 2020. He also served as a visiting professor at Middle East Technical University in Ankara, Turkey, from 2021 to 2022, where he collaborated with Prof. Oğuzhan Hasançebi on a project related to the seismic total cost optimization of steel structures.

Contributions and Research Focus

Prof. Gholizadeh has made significant contributions to the field of structural engineering, with a particular focus on structural optimization, performance-based seismic design, and the application of soft computing techniques. His research interests include neural networks, metaheuristics, and the analysis and design of space structures. He has authored numerous journal articles and book chapters, and his work on the optimal design of structures using advanced artificial intelligence methods has been widely recognized.

Accolades and Recognition

Throughout his career, Prof. Gholizadeh has received numerous awards and honors. He was the first-ranked M.Sc. student at Shahid Bahonar University of Kerman in 2002 and was chosen as the Distinguished PhD Candidate and Researcher of Kerman University in 2008. He received the Fifth Afzalipoor Prize in 2009 and was the first-ranked PhD student in the 14th Best Thesis Competition of the Ministry of Science in Tehran in 2010. In 2015, he was recognized as the Prominent Iranian Young Scientist in Civil Engineering by the Iranian Academy of Sciences. He has also been chosen as the Distinguished Researcher of Urmia University multiple times, most recently in 2023.

Impact and Influence

Prof. Gholizadeh's work has had a significant impact on the field of structural engineering, particularly in the areas of seismic design and structural optimization. His innovative research using artificial intelligence and metaheuristic algorithms has advanced the understanding and implementation of optimal design strategies in civil engineering. His contributions have been widely cited, earning him a place among the world's top 2% of highly cited researchers for four consecutive years (2019-2022).

Legacy and Future Contributions

Prof. Gholizadeh's legacy in the field of structural engineering is marked by his groundbreaking research and numerous accolades. His work continues to influence both academic research and practical applications in structural design. As a leading figure in the field, he is likely to continue contributing to advancements in seismic design, optimization techniques, and the application of artificial intelligence in civil engineering. His ongoing research and future projects promise to further enhance the safety, efficiency, and sustainability of structural systems.

Notable Publications

Efficient neural network-aided seismic life-cycle cost optimization of steel moment frames 2024

On the seismic collapse capacity of optimally designed steel braced frames 2022 (14)

Seismic collapse safety analysis of performance-based optimally designed reinforced concrete frames considering life-cycle cost 2021 (8)

Mainshock–aftershock low-cycle fatigue damage evaluation of performance-based optimally designed steel moment frames 2021 (7)

Multi-objective design optimization of steel moment frames considering seismic collapse safety 2021 (23)

 

 

 

 

 

Kamran | Engineering | Best Researcher Award

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Dr. Kamran | Engineering | Best Researcher Award

Indian Institute of Technology Roorkee | India

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Early Academic Pursuits

Dr. Kamran embarked on his academic journey with a Bachelor's degree in Civil Engineering  followed by a Master's degree in Structural Engineering from Aligarh Muslim University and a Ph.D. in Structural Engineering from the esteemed Indian Institute of Technology (IIT) Roorkee. His educational pursuits laid a solid foundation for his future endeavors in the field of structural engineering.

Professional Endeavors

Throughout his career, Dr. Kamran has held various positions contributing significantly to the field of structural engineering. His roles include being a Research Associate at the Indian Institute of Technology Roorkee and serving as a Teaching Assistant for courses like Mechanics of Solids and Design of Reinforced Concrete Structures. He has been actively involved in several research projects focusing on ballistic evaluation, material modeling, and the development of innovative construction materials.

Contributions and Research Focus

Dr. Kamran's research interests primarily revolve around Projectile Impact, Prestressed Concrete, Material Modeling, Ultrahigh Performance Concrete (UHPC), and Finite Element Simulations. He has made notable contributions in these areas through his extensive research projects, including the study of the ballistic response of prestressed concrete slabs, development of new material models for concrete, and the creation of UHPC for strategic applications.

Accolades and Recognition

Dr. Kamran's outstanding contributions have been recognized with prestigious awards and patents. Notably, he holds a patent titled "To study the shear strength of beams made of self-compacting concrete and concrete with recycled aggregates," awarded by Germany. His innovative work in this field reflects his dedication and expertise.

Impact and Influence

Dr. Kamran's research and academic endeavors have had a significant impact on the field of structural engineering, particularly in understanding the behavior of concrete structures under high-stress conditions. His contributions to material modeling and the development of advanced construction materials have the potential to revolutionize the industry and enhance structural safety.

Legacy and Future Contributions

With an impressive academic background, extensive research experience, and a proven track record of innovation, Dr. Kamran is poised to continue making substantial contributions to the field of structural engineering. His legacy lies in pioneering advancements that not only address current challenges but also pave the way for safer and more resilient structures in the future.

Notable Publications

An experimental investigation of plain, reinforced, and prestressed concrete slabs subjected to non-deformable projectile impact 2024

Numerical Prediction of Ballistic Performance of Thin Concrete Plate 2023

Influence of Volume of Air on the Muzzle Velocity of the Projectile 2023 (2)

A new material model for concrete subjected to high rate of loading 2023 (6)

The ballistic evaluation of plain, reinforced and reinforced–prestressed concrete 2022 (10)