Dr, Dalian University of Technology, China
Dr. Pengfei Wu is a distinguished researcher specializing in Intelligent Health Monitoring, Concrete Creep, and Reliability Analysis. Currently affiliated with Dalian University of Technology, Dr. Wu has made groundbreaking contributions to structural engineering, including the development of the worldβs first full-lifetime strain sensor and a fine-grained algorithm for concrete component creep. He has authored over 10 research papers and one book, with his work published in top-tier journals like Computer-Aided Civil and Infrastructure Engineering and Engineering Structures. His research has been recognized internationally, with one of his papers selected as a journal cover image. His innovative strain sensor technology and reliability analysis methods have vast applications in infrastructure safety and finite element calculations. Dr. Wuβs dedication to scientific advancement and commitment to improving structural engineering methodologies make him a notable figure in his field.
Profile
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Education
Dr. Pengfei Wu obtained his doctoral degree in Civil Engineering from the prestigious Dalian University of Technology. His academic journey has been deeply rooted in the study of structural health monitoring, material mechanics, and reliability assessment. During his Ph.D., he focused on the development of innovative strain detection technologies and creep analysis models, leading to numerous high-impact publications. His extensive research training allowed him to master finite element modeling, machine vision-based strain detection, and real-time structural assessment techniques. Apart from his doctoral research, Dr. Wu actively engaged in interdisciplinary studies, collaborating with experts in computational mechanics and advanced materials. His academic excellence is reflected in his multiple research projects and industry-focused applications, setting a strong foundation for his continued contributions to civil engineering. His educational background not only highlights his technical expertise but also his commitment to bridging theoretical knowledge with real-world applications.
Experience
Dr. Pengfei Wu has amassed extensive experience in structural engineering research and innovative technology development. He has successfully led and participated in five major research projects, focusing on structural reliability, concrete creep behavior, and intelligent health monitoring systems. His expertise has contributed to developing advanced strain sensors, which provide real-time monitoring solutions for infrastructure durability assessment. Dr. Wu has published extensively in SCI and Scopus-indexed journals, with a citation index of 58, demonstrating the academic impact of his work. His patented machine vision-based strain detection sensor showcases his ability to translate research into practical engineering applications. While his primary experience lies in academia, his work has significant implications for construction technology, infrastructure resilience, and smart monitoring systems. As an author, researcher, and innovator, Dr. Wu continues to push the boundaries of civil engineering advancements with a keen focus on sustainable and intelligent infrastructure development.
Research FocusΒ
Dr. Pengfei Wuβs research is primarily centered on Intelligent Health Monitoring, Concrete Creep, and Reliability Analysis. His pioneering work on the worldβs first full-lifetime strain sensor has revolutionized the way infrastructure durability is assessed, enabling real-time data collection for structural safety monitoring. In the field of concrete creep analysis, Dr. Wu has introduced a fine-grained algorithm that enhances the accuracy of predictive models for long-term material behavior in civil structures. His research bridges the gap between material science, engineering mechanics, and smart sensor technology, leading to advanced methodologies for structural assessment and maintenance. Additionally, his studies on reliability analysis provide valuable insights into the performance and lifespan of deep-buried tunnels, bridges, and high-stress infrastructure. Through his cutting-edge research, Dr. Wu contributes significantly to sustainable construction, smart monitoring solutions, and the future of resilient infrastructure systems worldwide.
Publication Top Notes
π Vibration and damping analysis of sandwich electrorheological fluid deep arches with bi-directional FGM containers β Engineering Structures, 2023 (25 Citations)
π Reliability analysis and prediction on tunnel roof under blasting disturbance β KSCE Journal of Civil Engineering, 2019 (15 Citations)
π Reliability evaluation and prediction of deep buried tunnel based on similarity theory and model test β KSCE Journal of Civil Engineering, 2023 (9 Citations)
π Displacement sensing based on microscopic vision with high resolution and large measuring range β Computer-Aided Civil and Infrastructure Engineering, 2024
π Research on calculation method of suspension bridge internal force under random traffic load β KSCE Journal of Civil Engineering, 2023
π Nonlinear hygro-thermo analysis of fluid-conveying cylindrical nanoshells reinforced with carbon nanotubes based on NSGT β Waves in Random and Complex Media, 2022
π Smartphone-based high durable strain sensor with sub-pixel-level accuracy and adjustable camera position β Computer-Aided Civil and Infrastructure Engineering, 2024
π A simplified homogeneous approach for non-linear analysis of masonry infill panels under in-plane loads β Heliyon, 2024