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1：Solid Mechanics

1. Stress and Strain Tensor

2. Invariants of Stress and Strain

3. Material Characterisation

4. Failure Prediction

5. Elasticity

2：Aerospace Materials

1. Drivers for Airframe Materials

2. Beneficial Properties

3. Choice of Materials

4. Fatigue

5. Corrosion

6. Wear

7. Creep

3：Thin walled Beams (Bending)

1. Beam View of Aircraft Structures

2. Shear Force and Bending Moment Diagrams

3. Thin-walled Approximation

4. Centres and Axes

5. Moments of Area

6. Unsymmetrical Bending

4：Composites

1. Fibre Reinforced Materials

2. Properties

3. Characterisation

4. Laminates

5. Classical Laminate Theory

6. Failure Prediction

5：Thin walled Beams (Shear)

1. Shear Flow

2. Torque Diagrams

3. Torsion of Open and Closed Closed Sections

4. Shear of Open and Closed Sections

5. Shear Centre

6：Thin walled Structure Idealisation

1. Bending, Shear and Torsion of Idealised Structures

7：Complex Thin walled Structures

1. Combined Open-Closed Sections

2. Multi-cell Structures

3. Built-up Stiffened Structures (Deep Stiffened Beams)

8：Joints and Clips

1. Bolted Joints

2. Multi-Row Joints

3. Shear and Tension Clips

4. Bolt Groups

9：Buckling of Columns and Shells

1. Structural Instability

2. Linear and Nonlinear Buckling of Columns

3. Elasticity and Buckling of Shells

4. Local Instability of Thin-walled Columns

10：Aeroelasticity

1. Definition of Aeroelasticity

2. Range of Aeroelastic effects

3. Static Aeroelasticity

4. Load redistribution

5. Divergence

6. Control Reversal

7. Dynamic Aeroelasticity

8. Flutter

9. 1D flutter (control surface example)

10. 2D flutter (wing example)
1：Solid Mechanics
2：Aerospace Materials
3：Thin walled Beams (Bending)
4：Composites 185:17
5：Thin walled Beams (Shear)
6：Thin walled Structure Idealisation
7：Complex Thin walled Structures
8：Joints and Clips
9：Buckling of Columns and Shells
10：Aeroelasticity