Lectures related to Nonlinear Structural Analysis: Failure Modes and Equivalent Frame Models

Introduces structural mechanics concepts like distributed loads, centroids, and equilibrium in 2D and 3D.

Beams under nonuniform bending: Shear stresses and built-up beams

Covers shear stresses in beams and built-up beams, including shear flow calculations and stress superimposition.

Covers the fundamentals of structural mechanics, focusing on beams, sign conventions, types of beams, and methods to calculate stress resultants.

Structural Mechanics: Truss/Beam Structures & Stress Analysis

Covers mechanical equilibrium, stress analysis, materials, CAD, and design principles.

Advanced Concrete Design: Final Project Presentations

Covers final project presentations on precast concrete design in a seismic region.

Nonlinear Analysis of Structures: Geometric Nonlinearity

Explores the analysis of structures with large deformations and geometric nonlinearity, including practical modeling considerations and the use of OpenSees.

Nonlinear Analysis of Structures: Beam-Column Elements

Covers beam-column elements, limitations of plasticity models, and nonlinear geometric transformations in structural analysis.

Finite Element Analysis: Advanced Mechanisms in Engineering

Provides an overview of advanced mechanisms analysis using Finite Element Method and Finite Element Analysis in engineering applications.

Finite Elements in Structural Mechanics

Covers the application of finite elements in structural mechanics, focusing on theories related to beams, plates, and shells.

Seismic design: Conventional vs. Capacity design

Explores seismic design principles, including conventional and capacity design of structures, failure modes, and plastic mechanisms.

Introduction to Structural Mechanics

Covers beams with distributed and concentrated forces, bending moment, shear force, and internal load diagrams.

Nonlinear Geometric Transformation: Analysis and Approximations

Explores nonlinear geometric transformations in structural engineering, emphasizing accurate integration methods and practical applications.

Plastic Hinge Method: Analysis and Design

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

Structural Mechanics: Systems of Forces

Covers systems of forces, moments, couples, and stress in 2D and 3D, as well as the effect of force-couple systems.

Structural Mechanics: Beams I

Explores beam types, internal loads computation, and load diagrams, with a focus on historical context and practical examples.

Nonlinear Analysis of Structures: Model Fidelities & Plasticity

Introduces model fidelities, plastic hinges, and concentrated plasticity in nonlinear structural analysis.

Mechanisms Design: Course Organization

Explains the organization of the 'Design of Mechanisms I' course, covering schedule, exercises, exams, and interactive learning.

Truss Structures and Beams

Covers the analysis of internal loads in truss structures and beams, focusing on the design of individual elements.

Beams under Flexure

Discusses stresses in beams under flexure, including shear forces and bending moments.

Mechanics of Slender Structures: Elasticity & Buckling

Explores 3D elasticity, beam bending, and buckling phenomena in slender structures.