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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
Torsion of Shafts
Circular Shaft Torsion
Kinematic Assumptions
Shear Strain Distribution
Angle of Twist
Torsion Formula Derivation
Torsion Formula Applications
Solid Circular Shafts
Hollow Circular Shafts
Design Calculations
Limitations and Assumptions
Power Transmission
Torque-Power Relationships
Rotational Speed Considerations
Design for Power Transmission
Efficiency Factors
Angle of Twist Calculations
Uniform Shafts
Stepped Shafts
Composite Shafts
Integration Methods
Statically Indeterminate Torsion
Compatibility Conditions
Solution Procedures
Fixed-End Torques
Continuous Shafts
Non-Circular Cross-Sections
Rectangular Shafts
Elliptical Shafts
Warping Effects
Membrane Analogy
Thin-Walled Sections
Closed Thin-Walled Tubes
Shear Flow Concept
Bredt-Batho Formula
Torsional Rigidity
Open Thin-Walled Sections
Warping Torsion
Shear Center Effects
Stress Concentrations in Torsion
Keyways and Splines
Holes and Notches
Fillet Effects
Design Guidelines
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5. Axially Loaded Members
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7. Beam Bending Theory