Benkun Tan | Engineering | Best Researcher Award

Dr Benkun Tan, Hunan University of Arts and Sciences, China

Dr. Benkun Tan is a Ph.D. candidate at Changsha University of Science and Technology, specializing in Civil Engineering. His research focuses on steel-concrete composite structures, with significant contributions including studies on temperature field prediction and fatigue damage analysis. Notable publications include “Temperature Field Prediction of Steel-Concrete Composite Decks” and “Fatigue Crack Propagation in Stud Connectors.” Dr. Tan’s work is published in reputable journals such as Journal of Zhejiang University-SCIENCE A and Sustainability. His innovative approach enhances the understanding of structural integrity and performance. 🌉📚✨

Publication profile

Orcid

Education 

Changsha University of Science and Technology, located in Changsha, China, has been the academic home of a Ph.D. candidate in the School of Civil Engineering since September 1, 2019. This institution is renowned for its comprehensive engineering programs, providing a robust curriculum that integrates theoretical knowledge with practical application. The focus on civil engineering equips students with the skills needed to tackle modern infrastructure challenges. Engaging with experienced faculty and participating in cutting-edge research, the candidate is poised to make significant contributions to the field. 📚🏗️🌍 

Research focus 

Benkun Tan is an emerging researcher in the field of civil engineering, specifically focusing on steel-concrete composite structures. His research encompasses temperature field prediction, multiaxial fatigue damage analysis, and fatigue crack propagation in composite beams and connectors. Tan employs innovative methods, including ensemble algorithms and numerical simulations, to enhance the durability and performance of composite materials in construction. His contributions aim to optimize design and layout for temperature measurement in bridges, thereby improving structural integrity and safety. With a commitment to sustainability, Tan’s work is significant for advancing engineering practices in the built environment. 🔧🏗️📊 

Publication top notes

Temperature field prediction of steel-concrete composite decks using TVFEMD-stacking ensemble algorithm

Multiaxial Fatigue Damage Analysis of Steel–Concrete Composite Beam Based on the Smith–Watson–Topper Parameter

Optimization Method of Temperature Measuring Point Layout for Steel-Concrete Composite Bridge Based on TLS-IPDP

Fatigue Crack Propagation and Life Analysis of Stud Connectors in Steel-Concrete Composite Structures

Numerical Study on Stress Intensity Factors for Stud Connectors of Steel–Concrete Connection

Conclusion 

Dr. Tan’s research portfolio demonstrates consistent contributions to the fields of temperature modeling, fatigue analysis, and lifecycle assessment of steel-concrete composite structures, underscoring his suitability for the Best Researcher Award in civil engineering. His innovative methodologies and practical applications in composite structures align with the award’s focus on impactful and forward-thinking research in the field.