This course was originally offered in Course 13 (Department of Ocean Engineering) as 13.122. In 2005, ocean engineering subjects became part of Course 2 (Department of Mechanical Engineering), and this course was renumbered 2.082.
I. Shear and Bending
- Lecture 1: Shear and Bending
- Lecture 2: Balance
II. Characteristics of Thin Walled Sections
- Lecture 3: Bending Without Twist
- Lecture 4: Pure Twist Open Section
- Lecture 5: Pure Twist Closed Section
- Lecture 6: Pure and Warping Torsion
- Lecture 7: Calculation Of Section Properties - Open
- Lecture 7a: Calculation of Section Properties Closed
- Lecture 8: Shear Center - Closed Section
- Lecture 8a: Shear Stress Multicell Section
- Lecture 8b: St. Venant Torsion Multi-cell
- Lecture 9a: Composite Sections
- Lecture 9b: Shear Lag
- Lecture 9c: Yield Criteria
III. Design Approach and Failure Analysis
- Design Philosophy and Approach
- Loads and Design Approach continued
IV. Plate Bending
- Plate Bending Introduction
- Plate Bending
- Plate Bending Solution
V. Panel, Girder, Frame Bending Failure Analysis
VI. Buckling and Ultimate Strength of Columns
VII. Buckling and Ultimate Strength of Plates
VIII. Buckling of Stiffened Panels
IX. Ultimate Strength of Stiffened Panels
X. Matrix, Grillage, and FEM Analysis
- Intro to Matrix Analysis
- Matrix Analysis continued
- Pin-jointed Beam Example
- Flexure Only Beam - General Method
- Grillage Introduction Degrees of Freedom
Final Project