Thickness of vessel given hoop stress and efficiency of longitudinal joint Solution

STEP 0: Pre-Calculation Summary
Formula Used
Thickness Of Thin Shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(2*Hoop Stress in Thin shell*Efficiency of Longitudinal Joint)
t = (Pi*Di)/(2*σθ*ηl)
This formula uses 5 Variables
Variables Used
Thickness Of Thin Shell - (Measured in Meter) - Thickness Of Thin Shell is the distance through an object.
Internal Pressure in thin shell - (Measured in Pascal) - Internal Pressure in thin shell is a measure of how the internal energy of a system changes when it expands or contracts at constant temperature.
Inner Diameter of Cylinderical Vessel - (Measured in Meter) - Inner Diameter of Cylinderical Vessel is the diameter of the inside of the cylinder.
Hoop Stress in Thin shell - (Measured in Pascal) - Hoop Stress in Thin shell is the circumferential stress in a cylinder.
Efficiency of Longitudinal Joint - Efficiency of Longitudinal Joint can be defined as the reliability that can be obtained from the joints after welding.
STEP 1: Convert Input(s) to Base Unit
Internal Pressure in thin shell: 14 Megapascal --> 14000000 Pascal (Check conversion ​here)
Inner Diameter of Cylinderical Vessel: 50 Millimeter --> 0.05 Meter (Check conversion ​here)
Hoop Stress in Thin shell: 25.03 Megapascal --> 25030000 Pascal (Check conversion ​here)
Efficiency of Longitudinal Joint: 0.3 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
t = (Pi*Di)/(2*σθl) --> (14000000*0.05)/(2*25030000*0.3)
Evaluating ... ...
t = 0.0466107337861233
STEP 3: Convert Result to Output's Unit
0.0466107337861233 Meter -->46.6107337861233 Millimeter (Check conversion ​here)
FINAL ANSWER
46.6107337861233 46.61073 Millimeter <-- Thickness Of Thin Shell
(Calculation completed in 00.020 seconds)

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Efficiency of Longitudinal and Circumferential Joint Calculators

Internal fluid pressure in vessel given hoop stress and efficiency of longitudinal joint
​ LaTeX ​ Go Internal Pressure in thin shell = (Hoop Stress in Thin shell*2*Thickness Of Thin Shell*Efficiency of Longitudinal Joint)/(Inner Diameter of Cylinderical Vessel)
Internal diameter of vessel given hoop stress and efficiency of longitudinal joint
​ LaTeX ​ Go Inner Diameter of Cylinderical Vessel = (Hoop Stress in Thin shell*2*Thickness Of Thin Shell*Efficiency of Longitudinal Joint)/(Internal Pressure in thin shell)
Thickness of vessel given hoop stress and efficiency of longitudinal joint
​ LaTeX ​ Go Thickness Of Thin Shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(2*Hoop Stress in Thin shell*Efficiency of Longitudinal Joint)
Hoop stress given efficiency of longitudinal joint
​ LaTeX ​ Go Hoop Stress in Thin shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(2*Thickness Of Thin Shell*Efficiency of Longitudinal Joint)

Vessel Calculators

Internal diameter of thin cylindrical vessel given circumferential strain
​ LaTeX ​ Go Inner Diameter of Cylinder = (Circumferential Strain Thin Shell*(2*Thickness Of Thin Shell*Modulus of Elasticity Of Thin Shell))/(((Internal Pressure in thin shell))*((1/2)-Poisson's Ratio))
Internal fluid pressure in thin cylindrical vessel given change in diameter
​ LaTeX ​ Go Internal Pressure in thin shell = (Change in Diameter*(2*Thickness Of Thin Shell*Modulus of Elasticity Of Thin Shell))/((((Inner Diameter of Cylinder^2)))*(1-(Poisson's Ratio/2)))
Internal fluid pressure in thin cylindrical vessel given longitudinal strain
​ LaTeX ​ Go Internal Pressure in thin shell = (Longitudinal Strain*2*Thickness Of Thin Shell*Modulus of Elasticity Of Thin Shell)/((Inner Diameter of Cylinder)*((1/2)-Poisson's Ratio))
Internal diameter of thin cylindrical vessel given longitudinal strain
​ LaTeX ​ Go Inner Diameter of Cylinder = (Longitudinal Strain*2*Thickness Of Thin Shell*Modulus of Elasticity Of Thin Shell)/((Internal Pressure in thin shell)*((1/2)-Poisson's Ratio))

Thickness of vessel given hoop stress and efficiency of longitudinal joint Formula

​LaTeX ​Go
Thickness Of Thin Shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(2*Hoop Stress in Thin shell*Efficiency of Longitudinal Joint)
t = (Pi*Di)/(2*σθ*ηl)

What is meant by hoop stress?

The hoop stress, or tangential stress, is the stress around the circumference of the pipe due to a pressure gradient. The maximum hoop stress always occurs at the inner radius or the outer radius depending on the direction of the pressure gradient.

How to Calculate Thickness of vessel given hoop stress and efficiency of longitudinal joint?

Thickness of vessel given hoop stress and efficiency of longitudinal joint calculator uses Thickness Of Thin Shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(2*Hoop Stress in Thin shell*Efficiency of Longitudinal Joint) to calculate the Thickness Of Thin Shell, Thickness of vessel given hoop stress and efficiency of longitudinal joint is the distance through an object, as distinct from width or height. Thickness Of Thin Shell is denoted by t symbol.

How to calculate Thickness of vessel given hoop stress and efficiency of longitudinal joint using this online calculator? To use this online calculator for Thickness of vessel given hoop stress and efficiency of longitudinal joint, enter Internal Pressure in thin shell (Pi), Inner Diameter of Cylinderical Vessel (Di), Hoop Stress in Thin shell θ) & Efficiency of Longitudinal Joint l) and hit the calculate button. Here is how the Thickness of vessel given hoop stress and efficiency of longitudinal joint calculation can be explained with given input values -> 40229.89 = (14000000*0.05)/(2*25030000*0.3).

FAQ

What is Thickness of vessel given hoop stress and efficiency of longitudinal joint?
Thickness of vessel given hoop stress and efficiency of longitudinal joint is the distance through an object, as distinct from width or height and is represented as t = (Pi*Di)/(2*σθl) or Thickness Of Thin Shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(2*Hoop Stress in Thin shell*Efficiency of Longitudinal Joint). Internal Pressure in thin shell is a measure of how the internal energy of a system changes when it expands or contracts at constant temperature, Inner Diameter of Cylinderical Vessel is the diameter of the inside of the cylinder, Hoop Stress in Thin shell is the circumferential stress in a cylinder & Efficiency of Longitudinal Joint can be defined as the reliability that can be obtained from the joints after welding.
How to calculate Thickness of vessel given hoop stress and efficiency of longitudinal joint?
Thickness of vessel given hoop stress and efficiency of longitudinal joint is the distance through an object, as distinct from width or height is calculated using Thickness Of Thin Shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(2*Hoop Stress in Thin shell*Efficiency of Longitudinal Joint). To calculate Thickness of vessel given hoop stress and efficiency of longitudinal joint, you need Internal Pressure in thin shell (Pi), Inner Diameter of Cylinderical Vessel (Di), Hoop Stress in Thin shell θ) & Efficiency of Longitudinal Joint l). With our tool, you need to enter the respective value for Internal Pressure in thin shell, Inner Diameter of Cylinderical Vessel, Hoop Stress in Thin shell & Efficiency of Longitudinal Joint and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Thickness Of Thin Shell?
In this formula, Thickness Of Thin Shell uses Internal Pressure in thin shell, Inner Diameter of Cylinderical Vessel, Hoop Stress in Thin shell & Efficiency of Longitudinal Joint. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Thickness Of Thin Shell = (Internal Pressure in thin shell*Inner Diameter of Cylinderical Vessel)/(4*Hoop Stress in Thin shell*Efficiency of Circumferential Joint)
  • Thickness Of Thin Shell = ((Internal Pressure in thin shell*Inner Diameter of Cylinder)/(2*Circumferential Strain Thin Shell*Modulus of Elasticity Of Thin Shell))*((1/2)-Poisson's Ratio)
  • Thickness Of Thin Shell = ((Internal Pressure in thin shell*Inner Diameter of Cylinder)/(2*Longitudinal Strain*Modulus of Elasticity Of Thin Shell))*((1/2)-Poisson's Ratio)
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