Zengwei Guo – Solid Mechanics – Best Researcher Award 

Prof. Zengwei Guo began his academic journey with a deep interest in civil engineering and structural mechanics, focusing on the durability, safety, and dynamic behavior of infrastructures. His early academic pursuits were marked by rigorous training in engineering mechanics, reinforced concrete structures, and applied mathematics, which built the foundation for his later expertise in corrosion modeling, structural health monitoring, and wind engineering. This early exposure to both theoretical and applied aspects of solid mechanics allowed him to develop a research vision that integrates advanced modeling approaches with practical engineering applications.

💼 Professional Endeavors

Throughout his career, Prof. Guo has worked extensively in civil and structural engineering research, with academic affiliations that enabled him to collaborate with leading scholars in China and internationally. His professional endeavors include serving as a corresponding author in high-impact journals, leading interdisciplinary projects, and supervising graduate students in structural health monitoring and bridge engineering. His active collaborations across structural durability, corrosion modeling, and aerodynamic performance of long-span bridges underscore his contributions to solid mechanics in both theoretical frameworks and practical applications.

🔬 Contributions and Research Focus

Prof. Guo’s contributions have significantly advanced the fields of infrastructure resilience and reliability. His research focus includes probabilistic modeling for reinforcement corrosion, corrosion state prediction using electrochemical indicators, and wind-induced vibration control of long-span bridges. He has introduced Bayesian-network-based frameworks for corrosion evaluation, developed hybrid prediction models for nondestructive testing, and applied wavelet analysis to characterize wind dynamics. Additionally, his work in applying physics-informed neural networks for parameter identification in prestressed concrete beams demonstrates his forward-looking integration of artificial intelligence into solid mechanics and structural engineering research.

🌍 Impact and Influence

Prof. Guo’s impact is evident through his wide-ranging publications across prestigious international journals such as Journal of Nondestructive Evaluation, Computer-Aided Civil and Infrastructure Engineering, Journal of Wind Engineering & Industrial Aerodynamics, and Journal of Vibration and Control. His studies have influenced both academic researchers and practicing engineers, particularly in the domains of structural health monitoring, durability of concrete infrastructures, and wind-induced responses of bridges. By addressing real-world challenges, his research has enhanced safety standards, optimized predictive models, and improved design strategies for long-term infrastructure resilience. His influence extends to interdisciplinary areas where solid mechanics intersects with materials science, artificial intelligence, and reliability engineering.

🏆Academic Cites

Prof. Guo’s scholarly works are widely cited, reflecting the academic community’s recognition of their significance. Key publications on Bayesian probabilistic models, chloride diffusion, and modal damping of suspension bridges have become reference points in the literature. His high citation record highlights the robustness of his methodologies and the relevance of his findings to both theoretical developments and practical engineering applications. The frequent referencing of his work in journals and conferences underlines his authority in solid mechanics-driven approaches for infrastructure safety and monitoring.

🌟 Legacy and Future Contributions

Prof. Zengwei Guo’s legacy is being built upon his pioneering integration of probabilistic models, machine learning, and advanced experimental methods into civil and structural engineering. Looking forward, his future contributions are likely to expand into intelligent infrastructure systems, advanced materials durability, and real-time structural monitoring through sensor integration. His commitment to bridging theoretical advances in solid mechanics with practical engineering challenges ensures that his research will continue to shape the field. As a mentor, researcher, and innovator, his legacy will inspire future generations of engineers dedicated to infrastructure resilience and safety.

📝Solid Mechanics

Prof. Guo’s body of work consistently integrates principles of solid mechanics into the evaluation of reinforcement corrosion, bridge aerodynamics, and structural health monitoring. His application of computational methods, probabilistic modeling, and AI techniques advances solid mechanics research beyond traditional boundaries. Through publications, collaborations, and innovative projects, he has positioned solid mechanics as a cornerstone of modern civil and structural engineering solutions.

✍️ Notable Publication


Title: Machine-learning-aided shear-capacity solution of RC girders with web stirrups based on the modified compression field theory

Journal: KSCE Journal of Civil Engineering

Year: 2024

Citations: 1


Title: Bayesian-network-based evaluation for corrosion state of reinforcements embedded in concrete by multiple electrochemical indicators

Journal: Journal of Nondestructive Evaluation

Year: 2024

Citations: 1


Title: Corrigendum to “Corrosion protection failure test analysis of the initial damaged cable ICCP mechanism” [Case Stud. Constr. Mater. 20 (2024) e03227]

Journal: Case Studies in Construction Materials

Year: 2024

Citations: 0


Title: Corrosion protection failure test analysis of the initial damaged cable ICCP mechanism

Journal: Case Studies in Construction Materials

Year: 2024

Citations: 4


Title: Hybrid prediction model for reinforcements' corrosion stage by multiple nondestructive electrochemical indices

Journal: Journal of Building Engineering

Year: 2024

Citations: 8


Title: Bayesian probabilistic model for reinforcement corrosion ratio of reinforcement in concrete prediction based on modified half-cell potential

Journal: Journal of Civil Structural Health Monitoring

Year: 2024

Citations: 4

Francesco Sorge | Mechanical Vibrations | Best Researcher Award

Prof. Francesco Sorge | Mechanical Vibrations | Best Researcher Award 

University of Palermo | Italy

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Francesco Sorge, born in Palermo, Italy, in 1948, embarked on a distinguished academic journey that laid the foundation for his prolific career in Applied Mechanics. He pursued his academic studies with a strong emphasis on theoretical and applied mechanics, which formed the basis of his subsequent professional endeavors.

PROFESSIONAL ENDEAVORS

Dr. Francesco Sorge is a renowned Full Professor of Applied Mechanics, having taught courses in Theoretical and Applied Mechanics, Applied Mechanics and Machines, Mechanical Vibrations, Dynamics and Control Systems. His extensive teaching career has spanned various aspects of mechanics, providing foundational knowledge to numerous students over the years.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Sorge's research spans a wide array of topics within the field of Applied Mechanics. His notable contributions include significant research work on MECHANISMS, VIBRATIONS, and LUBRICATION. His studies have explored diverse areas such as ferrofluids, internal combustion engines, turbomachinery, tribology, and the dynamics of various mechanical systems like CVT's, V-belt mechanics, railcar mechanics, and anti-roll marine systems. His research also delved into niche areas such as pneumatic artificial muscles, kinematics and dynamics of multitrailer systems, and the dynamical behavior of articulated vehicles en route. His work on the ground roll of airplanes, mechanisms for tracing polygonal paths, and dynamics of bow instruments has further enriched the field.

IMPACT AND INFLUENCE

Throughout his career, Dr. Sorge has made a significant impact on the field of Applied Mechanics. His research has been published in numerous international journals, reflecting his influential work on Mechanical Vibrations and other topics. He has also presented several papers at international conferences, contributing to the dissemination of knowledge and advancements in the field. As a reviewer for several international journals and a guest editor of special issues, he has actively shaped the direction of research in Applied Mechanics.

ACADEMIC CITES

Dr. Sorge's work is highly cited in the academic community, demonstrating the impact and relevance of his research. His contributions to Mechanical Vibrations and other areas have been pivotal in advancing the understanding and application of mechanics in various industries and scientific disciplines.

LEGACY AND FUTURE CONTRIBUTIONS

Despite retiring in 2018, Dr. Sorge remains active in scientific research, continuing to explore new avenues within Applied Mechanics. His legacy includes a vast body of work that has influenced generations of researchers and practitioners in the field. His future contributions are expected to continue shaping the field, particularly in Mechanical Vibrations and related areas, as he remains dedicated to advancing scientific knowledge and mentoring future generations of researchers.

MECHANICAL VIBRATIONS

Dr. Francesco Sorge's research has significantly contributed to the field of Mechanical Vibrations. His studies have explored various aspects of vibration analysis, control, and mitigation, providing insights that have been applied across numerous mechanical systems. His work has advanced the understanding of vibration dynamics and has been instrumental in developing strategies to improve the performance and reliability of mechanical systems. MECHANICAL VIBRATIONS continue to be a central focus of his research, driving innovations and advancements in the field.

NOTABLE PUBLICATION