Prof. Shuren Wang | Structural Engineering | Editorial Board Member

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Prof. Shuren Wang | Structural Engineering | Editorial Board Member

Prof. Shuren Wang | Henan Polytechnic University | China

Prof. Shuren Wang is a highly accomplished scholar in civil and geotechnical engineering, numerical simulation, and complex geotechnical system analysis. As a Distinguished Professor of Henan Province and an Adjunct Professor at the University of New South Wales, he has built a strong academic presence supported by major national and provincial research grants, including multiple projects under the National Natural Science Foundation of China and key scientific programs in Henan Province. His research achievements are reflected in substantial global impact metrics, with 2,935 citations in Scopus, citations from 2,302 documents, 228 indexed documents, and an h-index of 29, demonstrating his sustained influence across engineering disciplines. In addition, his ORCID profile lists 172 works, with 50 displayed, further showcasing the breadth of his scholarly output. Shuren Wang has published over 190 SCI/EI journal papers, 16 books, and numerous technical contributions, supported by extensive patents and software rights. His work has advanced understanding in areas such as tunnel excavation behavior, lightweight and composite concrete performance, anchorage mechanisms, and dynamic damage modeling, establishing him as a leading figure in civil and geotechnical engineering research.

Profiles: Scopus | Orcid

Featured Publications

Zhang, J., Fang, Z., Zhang, X., Wang, S., Cao, Y., & Lutynski, M. (2025). Coupling characteristics of crack propagation-energy dissipation-damage evolution of coal-like material under impact loading. Results in Engineering, 2025(December), Article 107333.

Gong, J., Zhang, J., Wang, S., Ma, A., & Li, Z. (2025). Investigation on performance improvement and dynamic damage model of phosphoric acid-modified MOC composite with industrial slag. Results in Engineering, 2025(December), Article 107283.

Wang, S., Cheng, C., Gong, J., & Song, Z. (2025). Dynamic mechanical properties of magnesium oxychloride-based titanium gypsum concrete after high-temperature exposure. Construction and Building Materials, 472, 140841.

Fan, L., Xu, F., Wang, S., Yu, Y., Li, P., Zhang, J., & Yu, L. (2025). Role of halloysite nanotubes in modulating the mechanical and microstructural characteristics of geopolymer concrete under thermal curing. Construction and Building Materials, 472, 140897.

Gong, J., He, M., Zhang, J., Liang, W., & Wang, S. (2025). Dynamic impact mechanical properties of red sandstone based on digital image correlation method. International Journal of Mining, Reclamation and Environment.

Gong, J., Zhang, J., Wang, S., He, M., Ma, A., & Li, C. (2024). Impact dynamic properties of magnesium oxychloride-doped paper sludge composites. DYNA, 99(3), D11259.

Dr. Mohamed Osama Aboualam | Structural Engineering | Best Researcher Award

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Dr. Mohamed Osama Aboualam | Structural Engineering | Best Researcher Award

Dr. Mohamed Osama Aboualam | Ain Shams University | Egypt

Dr. Mohamed Osama Aboualam is a structural engineer and researcher specializing in reinforced concrete, steel design, and seismic analysis. He completed his undergraduate studies in civil engineering at Ain Shams University in Cairo and later earned his master’s degree in structural engineering from the same institution. He is currently pursuing his doctoral studies in structural engineering at Ain Shams University, a renowned institution for academic excellence. Since beginning his professional career, he has contributed to the design of reinforced concrete buildings, steel bridges, and monorail guideway systems. His research emphasizes seismic performance and innovative approaches in infrastructure engineering.

Professional Profile

Scopus

Education and Experience

Dr. Mohamed Osama Aboualam completed his civil engineering studies at Ain Shams University, where he later obtained his master’s degree in structural engineering. He is now engaged in doctoral research at the same university, focusing on the seismic behavior of structural systems. Alongside his academic journey, he has accumulated valuable professional experience in structural design, working on reinforced concrete frameworks, steel structures, box girders, monorail guideways, and switch structures. His strong foundation in both research and practice has allowed him to integrate theoretical knowledge with practical engineering applications, advancing his expertise in complex infrastructure projects.

Summary Suitability

Dr. Mohamed Osama Aboualam is a distinguished candidate for the Best Researcher Award, recognized for his academic excellence and impactful contributions to the field of structural engineering. With a solid foundation in civil engineering from Ain Shams University, he has advanced his expertise through a master’s degree in structural engineering and is currently pursuing a doctoral degree at the same esteemed institution. His academic and professional journey reflects a clear commitment to advancing structural design, seismic resilience, and innovative infrastructure solutions.

Professional Development

Dr. Mohamed Osama Aboualam professional development reflects his dedication to combining academic excellence with practical engineering expertise. His work spans the design of reinforced concrete systems, steel bridges, and advanced monorail structures. His scholarly contributions include research on seismic performance and structural resilience, with a notable publication addressing the seismic behavior of monorail guideway structures in a respected international journal. His commitment to advancing structural engineering is further demonstrated by his pursuit of doctoral research, where he continues to explore innovative solutions to enhance the safety, reliability, and sustainability of infrastructure. He remains dedicated to lifelong professional growth and advancement.

Research Focus

Dr. Mohamed Osama Aboualam research is focused on structural engineering with a particular interest in seismic analysis and infrastructure resilience. His studies cover areas such as structural analysis, reinforced concrete design, steel design, and monorail guideway systems. He is especially dedicated to exploring how transportation and structural systems perform under seismic loads, seeking ways to strengthen their safety and reliability. His published work on the seismic performance of monorail guideway structures highlights his role in addressing pressing challenges in modern infrastructure. By combining academic inquiry with real-world applications, his research contributes to the advancement of sustainable and resilient engineering practices.

Awards and Honors

Dr. Mohamed Osama Aboualam has received recognition for his academic achievements and contributions to structural engineering research. His work on seismic performance of monorail guideway structures, published in a leading international journal, has been noted as a significant contribution to the field. Throughout his postgraduate studies, he has been acknowledged for his outstanding academic performance and his dedication to advancing knowledge in structural and seismic engineering. His combined achievements in both research and professional practice reflect his commitment to excellence and his potential as a future leader in the fields of structural resilience and transportation infrastructure.

Publication Top Notes

Title: Monorail guideway structures performance under seismic loads
Year: 2024
Citation: 1

Conclusion

Through his innovative research and professional achievements, Dr. Mohamed Osama Aboualam demonstrates exceptional suitability for the Best Researcher Award. His work contributes to both academic knowledge and practical applications in structural and seismic engineering, positioning him as an emerging leader dedicated to advancing global infrastructure resilience and sustainability.

 

Prof. Dr. Qinghe Shi | Structural Engineering | Best Researcher Award

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Prof. Dr. Qinghe Shi | Structural Engineering | Best Researcher Award

Prof. Dr. Qinghe Shi | Jiangsu University of Technology | China

Dr. Shi Qinghe is a Lecturer and Master’s Supervisor at the School of Materials Engineering, Jiangsu University of Technology. He earned his Ph.D. in Engineering from the School of Aeronautic Science and Engineering, Beihang University. His research focuses on structural health monitoring, damage identification, load identification, and optimization design of composite structures. Dr. Shi has led and participated in numerous research projects funded by national and provincial foundations, as well as industry collaborations. With extensive publications in high-impact journals, he has contributed significantly to advancements in composite structure analysis and monitoring technologies, fostering innovation in materials engineering and structural safety.

Professional Profile

Scopus

Education and Experience

Dr. Shi Qinghe obtained his Ph.D. in Engineering from Beihang University’s School of Aeronautic Science and Engineering, where he specialized in advanced structural analysis and engineering applications. Following his graduation, he joined Jiangsu University of Technology as a Lecturer in the School of Materials Engineering. Since then, he has been engaged in teaching, research, and supervision of master’s students. His academic journey reflects a deep commitment to materials science, particularly in areas that combine theoretical modeling with real-world engineering challenges. Over the years, he has also established strong collaborations with industry, enabling the translation of research findings into practical solutions.

Summary Suitability

Dr. Shi Qinghe is an outstanding candidate for the Best Researcher Award, recognized for his groundbreaking contributions in structural health monitoring, damage identification, load identification, and optimization design of composite structures. As a Lecturer and Master’s Supervisor at Jiangsu University of Technology, he has led numerous high-impact research projects funded by national and provincial foundations, as well as industry collaborations. His expertise spans theoretical modeling, computational methods, and practical engineering applications, ensuring his work directly benefits aerospace, transportation, and civil engineering sectors.

Professional Development 

Throughout his career, Dr. Shi Qinghe has demonstrated continuous professional growth through active engagement in high-level research projects and academic contributions. As a principal investigator, he has managed multiple projects funded by national foundations and industry partners, enhancing his expertise in structural health monitoring and composite material optimization. He has built a strong publication record in leading international journals, reflecting his commitment to scholarly excellence. His mentorship of graduate students fosters a collaborative and innovative research environment. Dr. Shi also actively participates in provincial and national research networks, enabling cross-disciplinary advancements and reinforcing his role as a thought leader in engineering research.

Research Focus 

Dr. Shi Qinghe’s research is centered on structural health monitoring, damage identification, load identification, and optimization design for composite structures. His work emphasizes the development of advanced computational methods and probabilistic models to address uncertainties in engineering applications. By integrating theoretical mechanics, applied mathematics, and material science, he aims to create accurate and efficient techniques for evaluating and improving the performance of complex structural systems. His studies contribute to ensuring structural safety, reducing maintenance costs, and extending service life in aerospace, transportation, and civil engineering fields. Through innovative methodologies, his research bridges the gap between fundamental theory and engineering practice.

Awards and Honors

Dr. Shi Qinghe has been recognized as a Jiangsu Youth Science and Technology Talent, reflecting his significant contributions to engineering research and innovation. He has also been selected for the Zhongwu Youth Innovation Talent Program, which acknowledges promising researchers with strong potential for leadership in scientific development. These honors highlight his dedication to advancing materials engineering and structural health monitoring. His achievements demonstrate not only academic excellence but also the ability to integrate research with industrial applications, driving forward technological solutions that address practical challenges in the field.

Publication Top Details

Title: Novel study on strain modes-based interval damage identification methodology utilizing orthogonal polynomials and collocation theories
Year: 2025
Citation: 3

Title: Assessment of tensile behaviour and damage evolution of open and filled hole FMLs based on AE monitoring and numerical prediction
Year: 2025
Citation: 5

Title: Investigation on damage behaviors of carbon fiber-reinforced nylon 6 thermoplastic composite laminates using acoustic emission and digital image correlation techniques
Year: 2025
Citation: 2

Conclusion

Dr. Shi Qinghe’s exceptional research output, innovative methodologies, and ability to integrate academic excellence with practical engineering solutions make him highly deserving of the Best Researcher Award. His contributions have strengthened the field of composite structure analysis and monitoring, delivering tools and techniques that improve safety, durability, and performance in critical engineering applications. With a proven record of impactful publications, funded projects, and talent cultivation, Dr. Shi embodies the qualities of a world-class researcher committed to advancing science and engineering.