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THIN & THICK CYLINDERS AND SPHERES
THIN CYLINDERS
- If the thickness of the cylinder is less than 1/10 to 1/15 of the diameter of the cylinder, it is treated as the thin cylinder.
- It is assumed that the stresses are uniformly distributed through out the thickness ofthe wall.
- 'Hoop stress’ or ‘Circumferential stress’ is given by
- ‘Longitudinal stress’ is given by
- The Maximum shear stress is given by
- Hoop strain is given by
- Longitudinal strain is given by
- Volumetric strain is given by
Where
p = internal pressure
d = diameter of cylinder
t = thickness of the cylinder
μ = Poisson's ratio
- If ‘sa’ be the permissible tensile stress for the shell material, then from strength point of view, the major principal stress (s) should be less than or equal to sa
Hence
or
THIN SPHERICAL SHELLS
- In case of thin spherical shells, longitudinal stress and circumferential stress are equal and are given by
s1 =s2 = 
(tensile in nature)
- The maximum shear stress,
- The strain in any direction is given by
- The volumetric strain is given by
CYLINDERS WITH HEMISPHERICAL ENDS
Let tc = thickness of the cylinder
ts = thickness of the hemisphere
- Hoop stress in cylindrical part
- Hoop stress in hemispherical part
- Longitudinal stress in cylindrical part
- Longitudinal stress in hemispherical part
- Circumferential strain in hemispherical part
- Circumferential strain in cylindrical part
- For the condition of no distortion of the junction
Thus, equating the two strains in order that there shall be no distortion of the junction.
This means thickness of cylindrical part should be more than the hemispherical part.
- For the condition of same maximum stress in cylindrical and hemispherical parts,
THICK CYLINDRICAL SHELL
- If the thickness of shell is greater than of
its diameter then it is called thick shell.
- In thick cylinders the circumferential stress no longer remains constant, but varies along the thickness and the radial pressure (px) is also not negligible.
The following three types of stresses are existing in thick cylinders :
(i) The radial pressure ‘px’ (compressive)
(ii) The hoop stress fx (tensile)
(iii) The longitudinal tensile stress po (tensile)
- The longitudinal stress may be given by
Hoop stress, is given by
Radial pressure is given by
Equation (ii) and (iii) are called Lame’s equation.
ro = outer radius of shell
ri = inner radius of shell
A and B are Lame’s constant
Note:-
1. Longitudinal tension is uniform across the thickness.
2. Hoop tension vary form maximum at inner face to minimum at outer face hyperbolically.
3. Radial compression varies from maximum at inner face to zero at outer face (atm.) hyperbolically.
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FAQs on Thin, Thick Cylinders & Spheres - Mechanical Engineering SSC JE (Technical)
| 1. What are the differences between thin and thick cylinders? |  |
Ans. Thin cylinders have a wall thickness that is small compared to the radius, while thick cylinders have a wall thickness that is significant compared to the radius. Thin cylinders experience a uniform stress distribution, while thick cylinders experience non-uniform stress distribution due to the variation in thickness.
| 2. How do you calculate the stress in a thin cylinder? | |
Ans. The stress in a thin cylinder can be calculated using the formula σ = Pd/4t, where σ is the stress, P is the internal pressure, d is the diameter, and t is the thickness of the cylinder wall.
| 3. What is the formula to calculate the stress in a thick cylinder? | |
Ans. The stress in a thick cylinder can be calculated using the Lame's equation, which is σr = (Pd/2t)(1 - (a^2/r^2)), where σr is the radial stress, P is the internal pressure, d is the diameter, t is the thickness, a is the inner radius, and r is the radial distance from the center.
| 4. How do you calculate the strain in a sphere? | |
Ans. The strain in a sphere can be calculated using the formula ε = Δr/r, where ε is the strain, Δr is the change in radius, and r is the original radius of the sphere.
| 5. What are the applications of thin and thick cylinders in mechanical engineering? | |
Ans. Thin cylinders are commonly used in pressure vessels, such as gas cylinders and pipes, while thick cylinders are used in applications where high internal pressure is present, such as hydraulic systems and steam boilers.
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