Strength of Materials

Module 1. Stresses and Strains

1. Stress Basic
2. Normal Stress Example
3. Shear Stress Example
4. Strain Basic
5. Strain Example
6. Modulus of Elasticity
7. Practical Vs FreeBody Diagram
8. See Inside

Module 2. Properties of Materials

1. Stress Strain Diagram
2. Mechanical Properties of Materials
3. Design Approaches
4. Factor of Safety Example
5. Properties of Materials Example

Module 3. Stress Considerations

1. Stress Consideration Poisson Ratio
2. Poisson Ratio Example
3. Stress Consideration Thermal Effects
4. Effect of Temperature Example
5. Stress Consideration Modular Ratio
6. Stress Consideration Stress Concentration
7. Stress Concentration Example

Module 4. Torsion in Circular Sections

1. Torque
2. Internal Resisting Torque
3. Torsional Shear Stress
4. Angle of Twist
5. Maximum/Allowable Torque Example
6. Torsional Rigidity Example
7. Design of a Shaft Example

Module 5. Shear Force & Bending Moment in Beams

1. Shear Force Bending Moment, the basics
2. Shear Force Bending Moment Diagram
3. Shear Force and Bending Moment Diagram Bicycle Example
4. Bending Moment and Shear Force Diagram Stretched Limo Example

Module 6. Stresses in Beams

1. Bending Stress Flexure Formula
2. Shear Stress General Shear Formula
3. Bending Stress Shear Stress Common Mistakes
4. Average Web Shear Formula
5. Bending and Shear Stress on Beam Example

Module 7. Deflection of Beams

1. Beam Deflection
2. Beam Deflection Area Moment Method
3. Beam Deflection Area Moment Example
4. Beam Deflection Moment by Parts Method
5. Beam Deflection Moment by Parts Method Example
6. Beam Deflection Example, Problem # 15.35 (Ref 1)

Module 8. Design of Beams

1. Steel Beam Design Step by Step Explanation with Examples Strength and Mechanics of Materials
2. Wood Beam Design Step by Step Explanation with Examples Strength and Mechanics of Materials
3. Wood Beam Design Application Explained with Practical Example Strength and Mechanics of Materials
4. Wood Beam Design Application Explained with Practical Example Strength and Mechanics of Materials
5. Most Efficient Beam Design (vertical vs flat) Explained with Application Example Strength and Mechanics of Materials
6. The most efficient beam section Explained with Example Strength and Mechanics of Materials

Module 9. Combined Stresses

1. Biaxial Bending Stresses
2. Combined Biaxial Bending Stress Calculation Example
3. Combined Axial & Bending Stresses
4. Combined Axial and Bending Stress Calculation Example
5. Failure Theories: Mohr's Circle & von Mises Yield Criterion
6. Mohr's Circle Step by Step
7. Mohr's Circle and von Mises Stress Example 1
8. Mohr's Circle and von Mises Stress Example 2

Module 10. Design of Columns

1. Column Design Euler Formula
2. Real Column Design
3. Real Column Design Timber
4. Column Design Machine Parts Car Strut Example
5. Column Design Wood Example
6. Column Design Wood Fixed End Example
7. Is a Square Wood Column More Efficient?

Module 11. Design of Connections

1. Connection Design
2. Connection Design Theory
3. Connection Design Allowable Load Calculation Automotive Suspension Example
4. Connection Design Step by Step Calculation Example

Module 12. Design of Pressure Vessels

1. Thin Wall Pressure Vessels
2. Thin Wall Pressure Vessel Design Calculation Example BBQ Propane Tank
3. Thin Wall Pressure Vessel Design Calculation Example Stability Exercise Ball

Reference

1. Limbrunner, G. F., D'Allaird, C., & Spiegel, L. (2015). Applied Statics and Strength of Materials, 6/E. Upper Saddle River, N.J: Pearson Prentice Hall. ISBN-10: 0133840549, ISBN-13: 978-0133840544
2. Beer, F. P.,‎ Johnston E. R., DeWolf, J. T., & Mazurek, D., (2017). Statics and mechanics of materials. 2/E New York, NY: McGraw-Hill Education. ISBN-10: 0073398160, ISBN-13: 978-0073398167
3. Hibbeler, R. C. (2017). Mechanics of materials. 10/E Boston: Pearson. ISBN-10: 0134319656,ISBN-13: 978-0134319650