Lectures related to Photopolymerisation: Internal Stress Measurement

Two-Dimensional Stress State

Explores two-dimensional stress states, energy density, constraints, and practical examples.

Bending of Straight Beams

Covers stress analysis and strain energy in straight beams under bending.

Structural Mechanics: Beam Bending and Boundary Conditions

Explores the moment-curvature relation for beams, emphasizing stress distribution and typical boundary conditions.

Mechanics of Slender Structures: Final Review and Overview

Covers the main learning objectives of ME-411, focusing on dimensional analysis, scalings, and mechanical elements.

Ellipsoidal Void Stress Concentrations

Explores stress concentrations on ellipsoidal void surfaces and the impact of inclusion on stress distribution.

Simple Shear: General Notions and Applications

Explores simple shear, shear stress, strain energy, stress analysis, and torsional shear stress in simple twist.

3D Linear Elasticity & Beams

Covers 3D linear elasticity, stress, strain, beams' behavior under loads, and torsion.

Torsion and Flexion in Mechanics of Continuous Media

Explores torsion analysis, eigenvalues, rupture conditions, stress principles, and engineering applications.

Mohr Circle: Stress Analysis

Explains stress analysis using Mohr circles and strain energy concepts.

Computational Inverse Design

Explores computational inverse design of deployable structures and geometric computing for materials fabrication and engineering applications.

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.

Beam Bending II: Internal Forces, Curvature, and Stiffness

Covers advanced topics in beam bending, stress tensors, elasticity, and Atomic Force Microscopy.

Classical Laminate Theory

Covers Classical Laminate Theory for solving mechanics problems with multiple material layers, discussing displacements, strains, stresses, and equilibrium.

Beams: Forces, Stresses, and Deformations

Analyzes beams, forces, stresses, deformations, curvature, deflection, and rigidity.

Mechanical Systems: Bolted Joint Analysis and Preload Effects

Discusses bolted joint analysis, focusing on preload effects and external load behavior.

Bending Beams: Constraints and Relative Deformation

Explores quadratic moment, relative strains in beams, and pure flexion, focusing on neutral axis, curvature, and normal stresses.

Introduction to Structural Mechanics

Covers fundamental concepts in structural mechanics, including static approach, stresses, equilibrium equations, and finite element modeling.

Normal Stress in Beams: Bending Analysis

Explores normal stresses in beams during bending and the calculation of the second moment of area for various shapes.

Mechanics of Slender Structures: Elasticity & Buckling

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

Stresses due to Flexure

Covers the calculation of curvature in beams and the design of beams for stress considerations.