Seismic Engineering: Masonry Structures

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Related lectures (32)

In-plane behaviour: URM walls

Explores the seismic behavior and strength capacity of URM walls, including effective stiffness and drift capacity.

Seismic Engineering Fundamentals

Introduces seismic engineering fundamentals, covering elastic response spectra, SDOF systems, and soil impact.

Earthquakes in Croatia 2020

Explores the earthquakes in Croatia in 2020, focusing on seismic impact and building responses.

Design of the Plastic Zone

Covers the capacity design of reinforced concrete walls and structures, emphasizing stability, reinforcement design, and seismic engineering.

Failure Mode Prediction: Masonry Structures

Explores failure modes of masonry structures under earthquake loading and presents seismic engineering case studies.

Stone Masonry Retrofit Techniques

Explores retrofit techniques for historic stone and brick masonry walls.

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.

Capacity Spectrum Method

Introduces the Capacity Spectrum Method for seismic analysis and retrofit strategies.

Effective Stiffness in Seismic Design

Explores the challenges of force-based design in seismic engineering, focusing on effective stiffness estimation and the implications for seismic design.

Conceptual Seismic Design: Guidelines and Principles

Explores the principles of conceptual seismic design for new buildings, emphasizing simplicity, compactness, and structural integrity.

Seismic Capacity Assessment

Explores seismic capacity assessment, including the plastic hinge method, force-based design shortcomings, and retrofit strategies.

Modal analysis: seismic design methods

Covers force-based seismic design methods and modal analysis of elastic systems.

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