Question 12.1: Compute the stress in the wall of a sphere having an inside ...

Applied Strength of Materials

Compute the stress in the wall of a sphere having an inside diameter of 300 mm and a wall thickness of 1.50 mm when carrying nitrogen gas at 3500 kPa internal pressure.

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Objective Compute the stress in the wall of the sphere.

Given p = 3500 KPa: $D_{i}$ = 300 mm; t= 1.50 mm

Analysis We must first determine if the sphere can be considered to be thin walled by computing the ratio of the mean diameter to the wall thickness.

$D_{m} = D_{i} + t$ = 300 mm + 1.50 mm = 301.5 mm

$D_{m} /t$ = 301.5 mm/1.50 mm = 201

Because this is far greater than the lower limit of 20, the sphere is thin. Then Equation (12–12) should be used to compute the stress.

$\sigma = \frac{p( \pi D_{m}^{2} /4)}{ \pi D_{m}t} = \frac{pD_{m}}{4t}$

Results

$\sigma = \frac{pD_{m}}{4t} = \frac{(3500 \times 10^{3} Pa)(301.5 mm)}{4(1.50 mm)}$

$\sigma = 175.9 \times 10^{6} Pa$ = 175.9 MPa

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