Seismic design: Conventional vs. Capacity design

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Covers seismic design fundamentals, including failure modes, capacity design, and displacement-based evaluation of structures.

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.

Plastic Hinge Method: Analysis and Design

Explores the plastic hinge method for inelastic deformation estimation and discusses the challenges of force-based design.

Failure Mechanisms of RC Walls: Ductile vs. Brittle

Explores the ductile and brittle failure modes of RC walls under seismic loads.

Seismic Design: Conventional vs. Capacity Design

Explores seismic design, comparing conventional and capacity design approaches for structures subjected to earthquakes.

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 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.

Seismic Behaviour of Unreinforced Masonry Buildings

Explores the seismic vulnerability and behavior of unreinforced masonry buildings, covering failure modes, structural features, and in-plane behavior.

Capacity Design of RC Walls

Explores the capacity design of reinforced concrete walls in seismic engineering, emphasizing flexural and shear design principles.

Reinforced Concrete Walls: Failure Mechanisms and Seismic Engineering

Explores the failure mechanisms of reinforced concrete walls and seismic engineering concepts.