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Lecture
Capacity Design of RC Walls
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Related lectures (32)
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Response Spectrum Method
Covers the Response Spectrum Method and its combination rules, emphasizing effective modal mass and maximum absolute responses.
Design of Concrete Structures: Column Calculations
Covers the advanced design of concrete structures, focusing on column calculations and seismic considerations.
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.
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Explains the plastic hinge method for estimating inelastic deformation capacity in structural elements, focusing on flexural deformations and providing good approximations.
Steel buildings: Seismic Design
Explores seismic design in steel buildings, covering failure modes, behaviour of materials, and innovative structural solutions.
Seismic Design: Conventional vs. Capacity Design
Explores seismic design, comparing conventional and capacity design approaches for structures subjected to earthquakes.
Failure modes: URM structures & RC frames with URM infills
Explores the failure modes of URM structures and RC frames with URM infills.
Displacement-based Evaluation: N2 Method
Introduces the N2 method for evaluating structures during earthquakes and covers seismic demand, safety factors, and response spectra.
Plastic Hinge Analysis: Seismic Engineering
Covers plastic hinge analysis and seismic engineering concepts.
