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This book systematically presents these findings for the first time, focusing on the composition, force mode, structural characteristics, performance advantages, and calculation methods for each new structural system, and comparing each one with traditional structural systems.
In view of the persistent problems in the current equivalent cast in situ precast concrete structural systems and the development of non-equivalent cast in situ precast concrete structure systems, Southeast University and Harbin Institute of Technology have conducted extensive research and proposed several new types of precast concrete structural systems. Their findings in this regard can promote the development of basic theories and technologies for building industrialization, accelerate the advancement of China's building industrialization, promote the application of precast building technology, and realize the concept of green building.
Sommario
Introduction.- Precast concrete frame system with ductile connector.- Prestressed precast concrete frame system with external energy dissipation.- Precast concrete frame system with friction energy dissipation.- Cast-in-situ frame with precast sub-frame structure system.- Precast rocking wall structure system.- Precast concrete cassette structures for high-rise buildings.- Precast modularized suspended structure system.
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Gang Wu is a professor, doctoral tutor, Southeast University vice president. He is a recipient of National Outstanding Youth Scientific Fund, a chair professor of Chang Jiang Scholars Program,the president of the Chinese Association of Young Technologists & Scientists, and the director of National and Local Joint Engineering Research Center for Intelligent Construction and Maintenance. He has long been engaged in research on structural engineering and intelligent construction and maintenance of infrastructures. Prof. Wu has been awarded two Second Prizes for Progress in Science & Technology of the State, China Youth Science and Technology Award, the Xplorer Prize 2021, Jiangsu Youth Science and Technology Outstanding Contribution Award, and many other awards.
ZhiQiang Chen is a Professor of Civil and Computer Engineering at the University of Missouri-Kansas City. He received his Bachelor of Science from Southeast University (1997), Nanjing, China, and his Ph.D. from the University of California, San Diego (2008). Since joining at UMKC in 2010, he directs the interdisciplinary Disaster, Infrastructure, and Geointelligence Technology (DIGIT) Lab. His research group currently focuses on theoretical and technical developments of artificial intelligence, robotic vision, remote sensing, human-machine interaction, and digital twinning technologies for their applications in natural and built-environment monitoring and inspection, civil infrastructure systems and natural hazards modeling, risk communication, and community resilience.
Ji Dang is an associate professor in the Department of Civil and Environmental Engineering, Saitama University, Japan. He received his Bachelor's degree (2002) and Master's Degree (2006) from Southeast University and his Doctor (Engineering) Degree (2010) from Aichi Institute of Technology. He has held the current position since 2020. In recent years, his main research interests are structural dynamics, IoT bridge sensing, bridge inspection based on UAV, and damage recognition based on AI and computer vision. He developed a free smartphone software 'AccMeasure' for vibration observation, proposed a performance-based UAV bridge inspection and evaluation method, which participated in Japan Strategic Innovation Program (SIP), and developed damage recognition technology based on AI computer vision. He has published 41 papers and won the Excellent Presentation Award of Japan Civil Engineering Society (2016), AI and Digital Science Data Award (2021), and other awards.
