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

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

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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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Keywords

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

Links

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

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