Answer: 600 psi
Step-by-step explanation:
Hoop stress is the circumferential force per unit areas (Psi) in the pipe wall due to internal pressure. It can be regarded to as the largest tensile stress in a supported pipe carrying a fluid under pressure. Trenchless methods are used to replace pipes that have failed or correct system issues such as clogs or blockages that inhibits internal flow.
Firstly, calculate the hoop stress in the pressure vessel which is given as:
σh= pd/2t
Where,
Internal pressure gauge(P) = 75psi
Inner diameter(d) = 8inches
Wall thickness = 0.25 inches
With the above, σh is given as:
σh= 75 × 8/ 2× 0.25
σh= 600/0.5
σh=1200 psi
Next, the longitudinal stress in the pressure is calculated. This is given as:
σi= pd/4t
σi= 75 x 8/4 ×0.25
σi= 600psi/1
σi= 600psi
The maximum shear stress is the maximum concentrated shear force in a small area.
It is very critical for structural engineers to locate and evaluate the maximum shear stress in a member in order to design.
After this, the Mohr circle is used to calculate the average maximum stress in the pressure vessel which is given as follows:
Tmax=σh/2
Tmax= 1200/2
Tmax= 600psi.
In conclusion, the maximum shear stress in the pressure vessel is 600psi