Hao Zhou – Structural Dynamics – Best Researcher Award

Hao Zhou - Structural Dynamics - Best Researcher Award

Beijing Institute of Technology - China

AUTHOR PROFILE

Scopus

ACADEMIC BACKGROUND πŸŽ“

Hao Zhou is a distinguished scholar in the field of mechanics and civil engineering, currently pursuing his Ph.D. in Mechanics at the School of Mechatronical Engineering at Beijing Institute of Technology, Beijing, China (September 2020 – June 2024). He holds a Master of Science in Civil Engineering from the School of Civil Engineering and Architecture at Southwest University of Science and Technology, Sichuan, China (September 2017 – June 2020), and a Bachelor of Science in Civil Engineering from the School of Architectural Engineering at Weifang University of Science and Technology, Shandong, China (September 2013 – June 2017).

RESEARCH EXPERIENCES πŸ”¬

Hao Zhou has conducted extensive research in various areas of mechanics and civil engineering. His work includes the development of dynamic stiffness modeling and solving methods for element-module-structure across different scales, from macro-scale mechanical structures to micro/nano-scale MEMS devices. His innovative approach has enabled dynamic analysis with high solution accuracy and efficiency. Additionally, he has made significant contributions to the field of fiber-reinforced composite materials (FRP), focusing on their application in aerospace, civil engineering, and mechanical bridges.

KEY TECHNOLOGIES FOR FRP MATERIALS πŸ—οΈ

Zhou's research on high-performance fiber-reinforced composite materials (FRP) addresses critical issues in developing new FRP materials and structural components. His work includes the design and mechanical performance prediction of FRP concrete, FRP-steel, and cementitious composites (ECC). He has also developed key technologies for FRP bar connections, including adhesive-bolt hybrid joints, enhancing the bending performance and stability of FRP-steel beams and FRP bar-reinforced concrete beams.

DYNAMIC STIFFNESS MODELING AND SOLVING METHODS πŸ”§

In his Ph.D. research, Hao Zhou has proposed a unified dynamic stiffness model that integrates various beam theories, significantly enhancing the efficiency of dynamic solving. His methods, including FEM (finite element method)-DSM (dynamic stiffness method)-TMM (transfer matrix method) hybrid methods, have been successfully applied to analyze complex structures like irregular beam elements and rigid body-beam modules, contributing to advancements in precision positioning platforms and robotic arms.

AWARDS AND RECOGNITION πŸ…

Hao Zhou's outstanding research and academic performance have earned him numerous awards and scholarships. He has received Graduate Academic Scholarships from the Beijing Institute of Technology and the China Academy of Engineering Physics multiple times. His exceptional presentations and papers have been recognized at various academic conferences, including the 1st and 2nd Academic Conferences of the China Academy of Engineering Physics and the iCANX Science Conference Xi'an Summit.

RESEARCH INTERESTS AND SKILLS πŸ”

Hao Zhou's research interests encompass mechanics in compliant mechanisms, mechanical metamaterials, robotics, and MEMS. He focuses on improving dynamic modeling theories and solution methods and fostering interdisciplinary collaboration. His technical skills include programming and data analytics with Matlab and Origin, and proficiency in modeling and analysis tools such as AutoCAD, Abaqus, and Comsol. He is fluent in Chinese and English.

KEY TECHNOLOGIES FOR FIBER REINFORCED COMPOSITE MATERIALS AND NEW STRUCTURESπŸ—οΈ

Zhou has also delved into the development of high-performance fiber reinforced composite materials (FRP) used in aerospace, mechanical bridges, and civil engineering. His research addresses critical issues in new FRP materials, structural components, and component connections. Notable works include the design of new FRP building materials, key technologies for FRP bar connections, and design methods based on safety margins for FRP bar reinforced concrete structures.

PERSONAL INTERESTS AND HOBBIES πŸŽ‰πŸ“

Outside of his academic and research pursuits, Hao Zhou enjoys table tennis, billiards, watching movies, and exploring the history of different countries. He is also skilled in traditional Chinese activities like dragon dance and walking on stilts, showcasing his diverse interests and talents.

NOTABLE PUBLICATION

Achieve the effective connection of FRP bars by blocking resistance and adhesive Force: Adhesive-Bolt hybrid joint 2022 (3)

Experimental Study and Analysis on Compressive and Tensile Behavior of Basalt Fibre Reinforced Concrete 2020

Experimental Study on Basic Mechanical Properties of Basalt Fiber Reinforced Concrete 2020 (99)