- Degree Bachelor
- Code: EME 2705
- Credit hrs: 3
- Prequisites: EME 2701
This course provides a comprehensive study of the fundamental principles and methods used to determine stresses, strains, and deformations in engineering components and structures under various loading conditions. Students will develop the ability to analyze and design structural and mechanical elements by applying theories of elasticity, failure criteria, and energy methods. Emphasis is placed on analytical problem-solving, the use of computational tools, and practical applications in engineering design.
Bachelor Degree in Mechanical Engineering (Energy and Power Engineering) (160 Cr.)
R. C. Hibbler, “Mechanics of Materials,” Latest edition.
| content serial | Description |
|---|---|
| 1 | Introduction to the concept of stress and strain: Normal stresses and strains. |
| 2 | Shear stresses, shearing strains and bearing stresses. |
| 3 | Shear stresses and deformations due to torsion. |
| 4 | Normal forces, shearing forces and bending moments in beams. |
| 5 | Stresses due to bending. |
| 6 | Stress and strain transformations: Introduction. |
| 7 | Stress and strain transformations: Principal stresses and planes and Mohr's circle of stress / 7th week evaluation |
| 8 | Maximum shear stress, yield criteria, analysis of strain. |
| 9 | Analysis of stresses in thin walled and thick walled pressure cylinders. |
| 10 | Stress concentration in machine elements. |
| 11 | Experimental stress analysis: strain gauges. |
| 12 | Deflection due to bending: Double integration / 12th week evaluation |
| 13 | Deflection due to bending: Strain energy and Castigliano's method. |
| 14 | Buckling of columns: Euler equation. |
| 15 | Buckling of columns: Eccentric loading of slender columns. |
| 1 | Introduction to the concept of stress and strain: Normal stresses and strains. |
| 2 | Shear stresses, shearing strains and bearing stresses. |
| 3 | Shear stresses and deformations due to torsion. |
| 4 | Normal forces, shearing forces and bending moments in beams. |
| 5 | Stresses due to bending. |
| 6 | Stress and strain transformations: Introduction. |
| 7 | Stress and strain transformations: Principal stresses and planes and Mohr's circle of stress / 7th week evaluation |
| 8 | Maximum shear stress, yield criteria, analysis of strain. |
| 9 | Analysis of stresses in thin walled and thick walled pressure cylinders. |
| 10 | Stress concentration in machine elements. |
| 11 | Experimental stress analysis: strain gauges. |
| 12 | Deflection due to bending: Double integration / 12th week evaluation |
| 13 | Deflection due to bending: Strain energy and Castigliano's method. |
| 14 | Buckling of columns: Euler equation. |
| 15 | Buckling of columns: Eccentric loading of slender columns. |
| 1 | Introduction to the concept of stress and strain: Normal stresses and strains. |
| 2 | Shear stresses, shearing strains and bearing stresses. |
| 3 | Shear stresses and deformations due to torsion. |
| 4 | Normal forces, shearing forces and bending moments in beams. |
| 5 | Stresses due to bending. |
| 6 | Stress and strain transformations: Introduction. |
| 7 | Stress and strain transformations: Principal stresses and planes and Mohr's circle of stress / 7th week evaluation |
| 8 | Maximum shear stress, yield criteria, analysis of strain. |
| 9 | Analysis of stresses in thin walled and thick walled pressure cylinders. |
| 10 | Stress concentration in machine elements. |
| 11 | Experimental stress analysis: strain gauges. |
| 12 | Deflection due to bending: Double integration / 12th week evaluation |
| 13 | Deflection due to bending: Strain energy and Castigliano's method. |
| 14 | Buckling of columns: Euler equation. |
| 15 | Buckling of columns: Eccentric loading of slender columns. |
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