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Lecture
Response Spectrum Method
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Related lectures (32)
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Seismic Design Principles
Explores seismic design principles, compliance factors, risk criteria, and retrofitting concepts.
Capacity Design of RC Walls
Covers the capacity design of reinforced concrete walls in 10 steps, emphasizing overstrength and ductility.
Box Behaviour: Structural Features of URM Buildings
Discusses the importance of box behavior and key structural features in seismic response.
Seismic Engineering: Failure Mechanisms
Explores the failure mechanisms of reinforced concrete walls in seismic engineering and the capacity design of steel and RC wall buildings.
URM Structures Failure Modes
Explores the failure modes of URM structures, covering in-plane and out-of-plane mechanisms, seismic aspects, and strength capacity.
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.
Displacement-based Evaluation: N2 Method
Introduces the N2 method for evaluating structures during earthquakes and covers seismic demand, safety factors, and response spectra.
Local and Global Ductility
Examines the relationship between different ductilities in seismic engineering, highlighting their significance in structural elements.
Seismic Design of Structures: Course Objectives
Explores seismic design objectives, emphasizing deformation capacity, engineer tasks, and structural evaluation methods.
Seismic Engineering: Masonry Structures
Explores seismic vulnerability of unreinforced masonry buildings, focusing on failure modes and retrofit methods.
