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Lecture
Seismic Engineering Fundamentals
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Related lectures (32)
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Earthquake Effects: Ground Movement and Seismic Engineering
Explores earthquake effects, seismic hazards, building damage, and seismic design principles, emphasizing the importance of deformation capacity in structures.
Seismic design: Conventional vs. Capacity design
Explores seismic design principles, including conventional and capacity design of structures, failure modes, and plastic mechanisms.
Earthquakes in Croatia 2020
Explores the earthquakes in Croatia in 2020, focusing on seismic impact and building responses.
Plastic Hinge Method: Analysis and Design
Explores the plastic hinge method for inelastic deformation estimation and discusses the challenges of force-based design.
Seismic Assessment of Masonry Structures
Explores seismic assessment of masonry structures, focusing on out-of-plane failure of URM walls and its impact on earthquake-prone regions.
Seismic Engineering Fundamentals
Introduces seismic engineering fundamentals, covering failure modes, design, evaluation, and comparison of linear and nonlinear systems.
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.
Response Spectrum Method
Covers the Response Spectrum Method and its combination rules, emphasizing effective modal mass and maximum absolute responses.
Seismic Design Fundamentals
Covers seismic design fundamentals, including failure modes, capacity design, and displacement-based evaluation of structures.
Capacity Spectrum Method
Introduces the Capacity Spectrum Method for seismic analysis and retrofit strategies.
