Progressive Collapse Analysis of Concrete-filled Steel Tubular Structures
- 1st Edition - September 21, 2024
- Authors: Man Xu, Shan Gao, Jing-xuan Wang
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 2 1 7 2 2 - 7
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 2 1 7 2 3 - 4
Since the notorious terrorist attack of the World Trade Center in 2001, researchers and engineers have been forced to review the existing research works and standards in re… Read more
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Request a sales quoteSince the notorious terrorist attack of the World Trade Center in 2001, researchers and engineers have been forced to review the existing research works and standards in resisting the progressive collapse of structures. From then on, the design of structure against progressive collapse has tended toward quantitative design, rather than qualitative design. The collapse of the COVID-19 epidemic isolation hotel in Quanzhou, China, in 2020 and the vertical collapse of a 12-story apartment in Florida, United States, in 2021 have aroused an upsurge of the research on progressive collapse. More experimental and theoretical works have been focused on this area. This book addresses this issue and provides a valuable reference for the progressive collapse analysis and design of building structures.
- Reviews latest references systematically in terms of experiments, simulation, and theory
- Introduces different test equipment used in the tests of progressive collapse and also modeling techniques used in the numerical studies of progressive collapse
- Includes performance prediction theories used in the analysis of progressive collapse
- Comprises considerable information on the tests and simulation and theoretical studies collected from the authors’ research in the last 10 years
Researchers, Graduates and Post Graduate Civil Engineering Students, Civil Engineering Designers
- Cover image
- Title page
- Table of Contents
- Copyright
- Chapter 1. Introduction
- Abstract
- 1.1 Definition of progressive collapse and events of symbolic collapse
- 1.2 Codes and guidelines for progressive collapse
- 1.3 Research progress against progressive collapse
- AI disclosure
- References
- Chapter 2. Anticollapse performance of concrete-filled steel tubular joints with long bolts
- Abstract
- 2.1 Column-removal tests on bolted joints with steel beam and concrete-filled steel tubular column using stiffened angles
- 2.2 Studies on concrete-filled steel tubular column to steel beam joints using endplates and long bolts under central column removal
- 2.3 AI disclosure
- References
- Chapter 3. Anticollapse performance of novel concrete-filled steel tubular joints
- Abstract
- 3.1 A novel composite joint with corrugated web and cover plates for simultaneously improving anticollapse resistance and seismic behavior
- 3.2 Numerical study on the antiimpact performance of novel concrete-filled steel tubular joint with corrugated web and cover plates
- Nomenclature
- References
- Chapter 4. Anticollapse performance of concrete-filled steel tubular steel frame
- Abstract
- 4.1 Behavior of CFST-column to steel-beam joints in the scenario of column loss
- 4.2 Study on collapse mechanism of steel frame with CFST columns under an internal column-removal scenario
- References
- Chapter 5. Anticollapse performance of concrete-filled steel tubular composite frame
- Abstract
- 5.1 Anticollapse mechanism and reinforcement methods of concrete-filled steel tubular composite frame with infill walls
- 5.2 Anticollapse performance of concrete-filled steel tubular composite frame with RC shear walls under middle column removal
- 5.3 Conclusions
- References
- Chapter 6. Dynamic performance of concrete-filled steel tubular frame under column loss
- Abstract
- 6.1 Dynamic analysis of concrete-filled steel tubular composite frame against progressive collapse based on Benchmark model
- 6.2 Anticollapse on the fragility and sensitivity analysis of composite frame with concrete-filled steel tubular columns based on the Latin hypercube sampling
- Acknowledgments
- AI disclosure
- References
- Index
- No. of pages: 350
- Language: English
- Edition: 1
- Published: September 21, 2024
- Imprint: Woodhead Publishing
- Paperback ISBN: 9780443217227
- eBook ISBN: 9780443217234
MX
Man Xu
Man Xu is mainly engaged in the basic theory research of steel–concrete composite structure and steel–wood composite structure and the progressive collapse performance research of steel and composite structures. She has presided over and completed one project for the National Natural Science Foundation of China, two projects for the Fundamental Research Funds for the Central University, and two laboratory open-funded projects. Furthermore, she has participated in four Natural Science Foundation projects of Heilongjiang Province.
SG
Shan Gao
Shan Gao is a member of the Research Center of Metal and Composite Structures in Harbin Institute of Technology. The research center was founded by Emeritus Professor Shan-tong Zhong and has been focusing on the performance of concrete-filled steel tubular structures for more than 60 years. Since 2008, the team has collaboratively started working on the progressive collapse analysis of steel and composite structures through large experiments, multiscale simulation, and theoretical prediction. More than 30 papers have been published on this topic with more than 400 citations. The research from the authors is also included in a Chinese design standard against progressive collapse.
JW
Jing-xuan Wang
Jing-xuan Wang is mainly engaged in the research on the basic theory of steel–concrete composite structure, earthquake resistance, fire resistance, and control of progressive collapse prevention. He has presided over and completed three projects of National Natural Science Foundation of China and won the second prize of Gansu Provincial Scientific and Technological Progress. He has published more than 40 academic papers in the Journal of Civil Engineering, Engineering Structures and other international journals. He is now a member of the Structural Fire Resistance Committee of the Earthquake and Disaster Prevention Branch of the Architectural Society of China, a young member of the National Concrete Teaching Symposium, a core member of the teaching team of the national first-class undergraduate course “Principles of Concrete Structural Design,” and a winner of the First Prize of the Sixth National Colleges and Universities Teaching Competition for Young Teachers (Engineering Group).