Strength of Materials
Module 1. Stresses and Strains
Module 1. Stresses and Strains
- Stress Basic
- Normal Stress Example
- Shear Stress Example
- Strain Basic
- Strain Example
- Modulus of Elasticity
- Practical Vs FreeBody Diagram
- See Inside
Module 2. Properties of Materials
Module 2. Properties of Materials
- Stress Strain Diagram
- Mechanical Properties of Materials
- Design Approaches
- Factor of Safety Example
- Properties of Materials Example
Module 3. Stress Considerations
Module 3. Stress Considerations
- Stress Consideration Poisson Ratio
- Poisson Ratio Example
- Stress Consideration Thermal Effects
- Effect of Temperature Example
- Stress Consideration Modular Ratio
- Stress Consideration Stress Concentration
- Stress Concentration Example
Module 4. Torsion in Circular Sections
Module 4. Torsion in Circular Sections
- Torque
- Internal Resisting Torque
- Torsional Shear Stress
- Angle of Twist
- Maximum/Allowable Torque Example
- Torsional Rigidity Example
- Design of a Shaft Example
Module 5. Shear Force & Bending Moment in Beams
Module 5. Shear Force & Bending Moment in Beams
- Shear Force Bending Moment, the basics
- Shear Force Bending Moment Diagram
- Shear Force and Bending Moment Diagram Bicycle Example
- Bending Moment and Shear Force Diagram Stretched Limo Example
Module 6. Stresses in Beams
Module 6. Stresses in Beams
- Bending Stress Flexure Formula
- Shear Stress General Shear Formula
- Bending Stress Shear Stress Common Mistakes
- Average Web Shear Formula
- Bending and Shear Stress on Beam Example
Module 7. Deflection of Beams
Module 7. Deflection of Beams
- Beam Deflection
- Beam Deflection Area Moment Method
- Beam Deflection Area Moment Example
- Beam Deflection Moment by Parts Method
- Beam Deflection Moment by Parts Method Example
- Beam Deflection Example, Problem # 15.35 (Ref 1)
Module 8. Design of Beams
Module 8. Design of Beams
- Steel Beam Design Step by Step Explanation with Examples Strength and Mechanics of Materials
- Wood Beam Design Step by Step Explanation with Examples Strength and Mechanics of Materials
- Wood Beam Design Application Explained with Practical Example Strength and Mechanics of Materials
- Wood Beam Design Application Explained with Practical Example Strength and Mechanics of Materials
- Most Efficient Beam Design (vertical vs flat) Explained with Application Example Strength and Mechanics of Materials
- The most efficient beam section Explained with Example Strength and Mechanics of Materials
Module 9. Combined Stresses
Module 9. Combined Stresses
- Biaxial Bending Stresses
- Combined Biaxial Bending Stress Calculation Example
- Combined Axial & Bending Stresses
- Combined Axial and Bending Stress Calculation Example
- Failure Theories: Mohr's Circle & von Mises Yield Criterion
- Mohr's Circle Step by Step
- Mohr's Circle and von Mises Stress Example 1
- Mohr's Circle and von Mises Stress Example 2
Module 10. Design of Columns
Module 10. Design of Columns
- Column Design Euler Formula
- Real Column Design
- Real Column Design Timber
- Column Design Machine Parts Car Strut Example
- Column Design Wood Example
- Column Design Wood Fixed End Example
- Is a Square Wood Column More Efficient?
Module 11. Design of Connections
Module 11. Design of Connections
- Connection Design
- Connection Design Theory
- Connection Design Allowable Load Calculation Automotive Suspension Example
- Connection Design Step by Step Calculation Example
Module 12. Design of Pressure Vessels
Module 12. Design of Pressure Vessels
- Thin Wall Pressure Vessels
- Thin Wall Pressure Vessel Design Calculation Example BBQ Propane Tank
- Thin Wall Pressure Vessel Design Calculation Example Stability Exercise Ball
Reference
Reference
- 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
- 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
- Hibbeler, R. C. (2017). Mechanics of materials. 10/E Boston: Pearson. ISBN-10: 0134319656,ISBN-13: 978-0134319650