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A thin cylindrical shell of diameter d, length l, and thickness t is subjected to an internal pressure p. The hoop stress in the shell is

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WBPSC JE Mechanical 2018 Official Paper
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  1. pd/t
  2. pd/2t
  3. pd/4t
  4. pd/6t

Answer (Detailed Solution Below)

Option 2 : pd/2t
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Detailed Solution

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Concept:

  • Consider a thin pressure vessel having closed ends and contains fluid under a gauge pressure P. Then the walls of the cylinder will have longitudinal stress, circumferential stress and radial stress.
  • As shown in the figure, a point of the shell having stresses from all sides i.e. tri-axial stresses.
  • σ=  longitudinal stress (tensile), σr = radial stress (compressive), σh = circumferential stress (tensile).

As, σr <<<< σL and σh, therefore we neglect σr and assumed the bi-axial stresses.

Circumferential or hoop stress

Longitudinal or axial stress: 

where d is the internal diameter and t is the wall thickness of the cylinder.

  • For the spherical shell, longitudinal stress and circumferential stress both are equal,

σh = σL = 

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