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Engineering
Mechanical Engineering
Solid Mechanics
1. Introduction to Solid Mechanics
2. Stress Analysis
3. Strain Analysis
4. Material Properties and Behavior
5. Axially Loaded Members
6. Torsion of Shafts
7. Beam Bending Theory
8. Transverse Shear in Beams
9. Combined Loading Analysis
10. Stress and Strain Transformation
11. Beam and Shaft Design
12. Deflection Analysis
13. Column Stability and Buckling
14. Energy Methods in Mechanics
15. Failure Theories and Design
9.
Combined Loading Analysis
9.1.
Superposition Principle
9.1.1.
Linear Elastic Systems
9.1.2.
Stress Superposition
9.1.3.
Limitation and Validity
9.2.
Pressure Vessels
9.2.1.
Thin-Walled Cylindrical Vessels
9.2.1.1.
Hoop Stress
9.2.1.2.
Longitudinal Stress
9.2.1.3.
Design Considerations
9.2.2.
Thin-Walled Spherical Vessels
9.2.2.1.
Stress Analysis
9.2.2.2.
Design Applications
9.2.3.
Thick-Walled Vessels
9.2.3.1.
Lamé Equations
9.2.3.2.
Stress Distribution
9.3.
Combined Stress States
9.3.1.
Axial Load and Bending
9.3.2.
Axial Load and Torsion
9.3.3.
Bending and Torsion
9.3.4.
General Combined Loading
9.3.5.
Stress Resultants
9.3.6.
Critical Stress Locations
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8. Transverse Shear in Beams
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10. Stress and Strain Transformation