Dr A.P.J. Abdul Kalam Technical University, UP (AKTU), Mechanical Engineering Semester 5, Strength of Material Syllabus

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Unit - 1 Compound Stress And Strains

Unit 1

Compound stress and strains

1.1 Introduction

1.2 Normal stress and strain

1.3 Shear stress and strain

1.4 Stresses on inclines sections

1.5 Strain energy

1.6 Impact loads and stresses

1.7 State of plane stress

1.8 Principal stress and strain maximum shear stress

1.9 Mohr’s circle for plane stress

1.10 Three dimensional states of stress strain

1.11 Equilibrium equations

1.12 Generalized Hook’s law

1.13 Theories of failure

1.14 Thermal Stresses

Unit - 2 Stresses In Beams

Unit 2

Stresses in Beams Deflection of beams and Torsion

2.1 Stresses in Beams Pure bending

2.2 Normal stresses in beams

2.3 Shear stresses in beams due to transverse and axial loads

2.4 Composite beams

2.5 Deflection of Beams Introduction to Beams

2.6 Differential equation of the elastic curve

2.7 Cantilever and simply supported beams

2.8 Macaulay’s method

2.9 Area moment method

2.10 Fixed and continuous beams

2.11 Torsion

2.12 Combined bending and torsion of solid hollow shafts

2.13 Torsion of thinwalled tubes

Unit - 3 Helical And Leaf Springs

Unit 3

Helical and Leaf Springs

3.1 Deflection of springs by energy method

3.2 Helical springs under axial load and under axial twist respectively for circular and square cross sections axial load and twisting moment acting simultaneously both for open and closed coiled springs

3.3 Laminated Leaf springs

3.4 Columns and Struts Buckling and stability

3.5 Slenderness ratio

3.6 Combined bending and direct stress

3.7 Middle third and middle quarter rules

3.8 Struts with different end conditions

3.9 Euler’s theory for pin ended columns

3.10 Effect of end conditions on column buckling

3.11 Ranking Gordon formulae

3.12 Examples of Columns in mechanical equipment and machines

Unit - 4 Thin Cylinders & Sphere

Unit 4

Thin cylinders Spheres and Thick cylinders

4.1 Introduction

4.2 Difference between thin walled and thickwalled pressure vessels

4.3 Thinwalled spheres and cylinders

4.4 Hoop and axial stresses and strain

4.5 Volumetric strain

4.6 Thick cylinders Radial axial and circumferential stresses in thick cylinders subjected to internal or external pressures

4.7 Compound cylinders

4.8 Stresses in rotating shaft and cylinder

4.9 Stresses due to Interference fits

Unit - 5 Curved Beams

Unit 5

Curved Beams Unsymmetrical Bending

5.1 Curved Beams Bending of beams with large initial curvature

5.2 Position of neutral axis for rectangular trapezoidal and circular cross sections

5.3 Stress in crane hooks stress in circular rings subjected to tension or compression

5.4 Unsymmetrical Bending Properties of beam cross‐section

5.5 Slope of neutral axis stress and deflection in unsymmetrical bending

5.6 Determination of shear center and flexural axis for I‐section and channel section

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Other Subjects of Semester-1
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