Empirical Seismic Vulnerability and Resilience Assessment of Building Clusters analyzes the seismic vulnerability analysis of 10 types of structures and studies and discusses the evaluation of structural damage using risk analysis and shaking table test methods. The book focuses on seismic vulnerabilities but does not consider the contribution of typical empirical structural seismic damage data to structural vulnerability assessment and prediction. In other words, the empirical data’s role in regional seismic damage is omitted. It is recognized that the impact of earthquakes on large-scale areas is extensive, not only on a building but also on a group of buildings. This book is based on the research background of typical seismic damage characteristics of 11 types of engineering structures and is based on a large volume of pictures and data investigated by the author on-site. Characteristics of the vulnerability of various structures are analyzed, and measures and methods to improve the vulnerability of various structures are provided. Combined with probability risk, reliability, machine learning, and other means, vulnerability prediction and evaluation models are established, respectively, and the rationality of the models is verified by hundreds of on-site earthquake damage survey data. The above research and highlights are unique to this book, making it a key resource for academic researchers and practicing engineers in civil and seismic engineering, senior undergraduates, and graduate students.
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Table of Contents
1. Field structural damage investigation of typical earthquakes2. Actual seismic damage and empirical vulnerability assessment of reinforced concrete structures
3. Vulnerability and failure analysis of masonry structure
4. Seismic damage and resilience evaluation of bottom frame seismic wall masonry structures
5. Empirical vulnerability assessment and prediction of adobe buildings
6. Damage features and resilience assessment of brick and wood structures
7. Assessment of actual seismic damage and resilience of wooden roof truss buildings
8. Assessment of failure features of workshop buildings
9. Seismic vulnerability assessment of the composite material structure of earth and wood
10. Vulnerability comparison of typical building clusters considering historical earthquake damage data
11. Vulnerability and resilience assessment of large-scale regional buildings
12. Empirical seismic vulnerability assessment model for regional bridge clusters
Authors
Si-Qi Li Associate Professor, School of Civil Engineering, Heilongjiang University, Harbin City, Heilongjiang Province, P.R. China.Si-Qi Li is a Chinese registered constructor, project cost engineer, and civil engineering project manager. In the last 15 years, he has conducted field research on several destructive earthquakes in China and published many works (more than 50 articles) on empirical vulnerability analysis and seismic intensity. His research interests are structural seismic vulnerability, seismic intensity, probabilistic risk analysis, field seismic damage assessment of typical structures, seismic risk and hazard, and bridge seismic fragility.