Seismic Impact on Building Structures: Assessment, Design, and Strengthening

doi:10.3390/books978-3-7258-1362-9

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Seismic Impact on Building Structures: Assessment, Design, and Strengthening

Edited by

June 2024

344 pages

ISBN978-3-7258-1361-2 (Hardback)
ISBN978-3-7258-1362-9 (PDF)

https://doi.org/10.3390/books978-3-7258-1362-9

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This book is a reprint of the Special Issue Seismic Impact on Building Structures: Assessment, Design, and Strengthening that was published in

Chemistry & Materials Science

Computer Science & Mathematics

Engineering

Environmental & Earth Sciences

Physical Sciences

Summary

As the late Professor Nick Ambraseys famously said, “Earthquakes do not kill people—buildings do”. Damage to buildings is one of the most serious physical impacts of earthquakes. Damaged buildings result not only in economic losses but also in human casualties and injuries, a lack of housing, and lost incomes. The seismic resilience of buildings is dictated by a multitude of factors associated with the buildings themselves and their complex interactions with the characteristics of ground shaking. This Special Issue focuses on the structural impact of earthquakes on buildings. Original research and reviews covering structural modeling, vulnerability assessment, performance assessment, design methodology, vibration control/damping, material characterization for innovative use in earthquake-resistant design, performance-based design, forensic analysis, structural pathology and rehabilitation, and repair/strengthening are incorporated into this Special Issue.

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Hardback

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Keywords

tuned-mass damper; inerter; passive control; numerical optimization; active control; earthquake excitation; seismic vulnerability; seismic hazard; seismic risk probability; ontology; semantic web rule; rectangular reinforced concrete column; failure mode; shear strength; machine learning model; graphical user interface; seismic vulnerability; damage index spectra; historical masonry building; nonlinear analysis; beam–column joint; fiber-based section modeling; joint shear hinge; substandard beam–column joints; stiffness and strength deterioration; reinforced concrete; seismic vulnerability; risk; base isolation; friction pendulum system; multi-surface isolation system; passive isolation system; active isolation system; semi-active isolation system; masonry cultural heritage building; strengthening; pushover analysis; FRCM; 3MURI; earthquake; Venice Charter; ICOMOS recommendations; ambient testing; numerical modeling; minaret; seismic assessment; modal analysis; stone masonry; historic structures; applied element method; dynamic testing; short column; seismic behaviour; reinforced-concrete; design principles; shear strengthening; CFRP grid; ECC; RC beams; finite element analysis; earthquake; Türkiye; design; collapse; ductility; reinforcement; concrete; capacity curves; fragility curves; code-based approach; steel and RC buildings; Iranian earthquake code; geo-fabrics; stiffness; ductility; energy dissipation; lateral drift; strengthening; disaster preparedness; emergency planning; seismic vulnerability; seismic fragility; risk maps; n/a

Seismic Impact on Building Structures: Assessment, Design, and Strengthening

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