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Lecture
Seismic Engineering Fundamentals
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Related lectures (32)
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Seismic design: Conventional vs. Capacity design
Explores seismic design principles, including conventional and capacity design of structures, failure modes, and plastic mechanisms.
Plastic Hinge Method: Analysis and Design
Explores the plastic hinge method for inelastic deformation estimation and discusses the challenges of force-based design.
Seismic Design Methods: Response Spectrum vs Equivalent Lateral Force
Compares force-based seismic design methods: response spectrum vs equivalent lateral force, explaining peak forces and displacements estimation during earthquakes.
Relationship between R and Ductility
Delves into the relationship between R and ductility in seismic engineering, focusing on inelastic response spectra.
Inelastic SDOF: Response and Design
Explores the response and design of inelastic SDOF systems under seismic forces, including force capacity, displacement ductility, and shear strength estimation.
Seismic Engineering Fundamentals
Introduces seismic engineering fundamentals, covering elastic response spectra, SDOF systems, and soil impact.
Failure modes: URM structures & RC frames with URM infills
Explores the failure modes of URM structures and RC frames with URM infills.
Earthquakes in Croatia 2020
Explores the earthquakes in Croatia in 2020, focusing on seismic impact and building responses.
Displacement-based Evaluation: N2 Method
Introduces the N2 method for evaluating structures during earthquakes and covers seismic demand, safety factors, and response spectra.
Response Spectrum Method
Covers the Response Spectrum Method and its combination rules, emphasizing effective modal mass and maximum absolute responses.
