SES # | TOPICS | READINGS |
---|---|---|
Elasticity and Solid Mechanics | ||
1 | Course Outline Material Behavior under Uniaxial Loading Displacement and Strain Stress and Equilibrium Stress-strain | (PDF) |
2 | Applications: Beam Bending, Buckling and Vibration | |
3 | Mechanisms of Elasticity and Viscoelasticity | (PDF) |
4 | Lab 1: Beam Bending, Buckling and Vibration | |
5 | 3-D Linear Thermo-elasticity: Strain-displacement, Stress-strain-temperature, and Stress-equilibrium | |
6 | Simple States of Elastic Stress, Strain, and Displacement | |
7 | Lab 2: Engineering Polymers: Viscoelasticity, Strength, and Ductility | |
8 | Limits to Elasticity: Strength and Multi-axial Yield Condition Boundary Conditions and Boundary Value Problems | (PDF) |
9 | Elasticity of Composite Materials Applications | |
10 | Lab 3: Stress Concentration | |
Plasticity and Creep | ||
11 | Uniaxial Elastic-plastic Behavior Elastic-plastic Beam-bending | |
12 | Ideal Shear Strength Dislocations | |
13 | Lab 4: Sheet Bending | |
14 | Strengthening Mechanisms Strain Hardening | |
15 | Limit Analysis | |
16 | Lab 5: Heat Treatment | |
17 | Applications of Limit Analysis | (PDF) |
18 | Quiz I | |
19 | High-temperature Deformation: Creep and Stress Relaxation | |
20 | High-temperature Deformation Mechanisms Resisting Creep | (PDF) |
21 | Lab 6: Project 1 | |
Fracture | ||
22 | Ideal Cleavage Strength Stress Concentration and Cracks | |
23 | Crack-tip Stress Intensity Factors Critical Stress Intensity | (PDF) |
24 | Lab 7: Fracture Toughness | |
25 | Linear Elastic Fracture Mechanics (LEFM) | |
26 | Applications of LEFM | (PDF) |
27 | Lab 8: Project 2 | |
Fatigue | ||
28 | Fatigue Crack Propagation Defect-tolerant Fatigue Design and Maintenance | |
29 | Defect-free Fatigue Design: High-cycle Fatigue | |
30 | Defect-free Fatigue Design: Low-cycle Fatigue | |
31 | Lab 9: Project 3 | |
32 | Applications: Strain-amplitude/Fatigue-life Behavior Notch Effects in High-cycle Fatigue | |
33 | Quiz II | |
34 | Lab 10: Project Presentations | |
Material Selection for Design | ||
35 | Principles for Material Selection: Performance, Properties, and Constraints | |
36 | Optimization Material Indices of Merit | |
37 | Lab 11: Course Review (Optional) | |
38 | Final Exam |