Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel Calculator

✖The Total Deformation of Pressure Vessel Value is measured as the sum of the increase in the inner diameter of the jacket and decrease in the outer diameter of cylinder.ⓘ Total Deformation of Pressure Vessel [δ]			+10% -10%
✖The Decrease in Outer Diameter of Cylinder Value is measured as the difference between total deformation of the pressure vessel and increase in the inner diameter of the jacket.ⓘ Decrease in Outer Diameter of Cylinder [δ_c]			+10% -10%

✖The Increase in Inner Diameter of Jacket Value is measured as the difference between the total deformation of a pressure vessel and decrease in outer diameter of the cylinder.ⓘ Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel [δ_j]

⎘ Copy

👎

Formula

✖

Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel

Formula

`"δ"_{"j"} = "δ"-"δ"_{"c"}`

Example

`"0.4mm"="1.20mm"-"0.80mm"`

Calculator

LaTeX

Reset

👍

Download Mechanical Formula PDF

Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel Solution

STEP 0: Pre-Calculation Summary

Formula Used

Increase in Inner Diameter of Jacket = Total Deformation of Pressure Vessel-Decrease in Outer Diameter of Cylinder
δ_j = δ-δ_c
This formula uses 3 Variables

Variables Used

Increase in Inner Diameter of Jacket - (Measured in Meter) - The Increase in Inner Diameter of Jacket Value is measured as the difference between the total deformation of a pressure vessel and decrease in outer diameter of the cylinder.
Total Deformation of Pressure Vessel - (Measured in Meter) - The Total Deformation of Pressure Vessel Value is measured as the sum of the increase in the inner diameter of the jacket and decrease in the outer diameter of cylinder.
Decrease in Outer Diameter of Cylinder - (Measured in Meter) - The Decrease in Outer Diameter of Cylinder Value is measured as the difference between total deformation of the pressure vessel and increase in the inner diameter of the jacket.

STEP 1: Convert Input(s) to Base Unit

Total Deformation of Pressure Vessel: 1.2 Millimeter --> 0.0012 Meter (Check conversion here)
Decrease in Outer Diameter of Cylinder: 0.8 Millimeter --> 0.0008 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

δ_j = δ-δ_c --> 0.0012-0.0008

Evaluating ... ...

δ_j = 0.0004

STEP 3: Convert Result to Output's Unit

0.0004 Meter -->0.4 Millimeter (Check conversion here)

FINAL ANSWER

0.4 Millimeter <-- Increase in Inner Diameter of Jacket

(Calculation completed in 00.004 seconds)

You are here -

Home » Engineering » Mechanical » Machine Design » Design of Pressure Vessels » Gasket Joint » Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel

Credits

Created by Vaibhav Malani

National Institute of Technology (NIT), Tiruchirapalli

Vaibhav Malani has created this Calculator and 600+ more calculators!

Verified by Anshika Arya

National Institute Of Technology (NIT), Hamirpur

Anshika Arya has verified this Calculator and 2500+ more calculators!

< 14 Gasket Joint Calculators

Nominal Diameter of Gasket Joint Bolt given Stiffness, total thickness and Young's Modulus

Go Nominal Bolt Diameter on Cylinder = sqrt(Stiffness of pressurized cylinder bolt*4*Total Thickness of parts held together by Bolt/(pi*Modulus of elasticity for gasket joint))

Nominal Diameter of Gasket Joint

Go Nominal Bolt Diameter on Cylinder = sqrt(Approximate Stiffness of Gasketed Joint*Thickness of Member under Compression/(2*pi*Modulus of elasticity for gasket joint))

Stiffness of Bolt of Gasket Joint given Nominal Diameter, Total Thickness, and Young's Modulus

Go Stiffness of pressurized cylinder bolt = (pi*(Nominal Bolt Diameter on Cylinder^2)/4)*(Modulus of elasticity for gasket joint/Total Thickness of parts held together by Bolt)

Total Thickness of Gasket Joint given Stiffness, Nominal Diameter and Young's Modulus

Go Total Thickness of parts held together by Bolt = (pi*(Nominal Bolt Diameter on Cylinder^2)/4)*(Modulus of elasticity for gasket joint/Stiffness of pressurized cylinder bolt)

Young's Modulus of Gasket Joint given Stiffness, Total Thickness and Nominal Diameter

Go Modulus of elasticity for gasket joint = Stiffness of pressurized cylinder bolt*Total Thickness of parts held together by Bolt/(pi*(Nominal Bolt Diameter on Cylinder^2)/4)

Approximate Stiffness of Cylinder Cover, Cylinder Flange and Gasket

Go Approximate Stiffness of Gasketed Joint = (2*pi*(Nominal Bolt Diameter on Cylinder^2))*(Modulus of elasticity for gasket joint/Thickness of Member under Compression)

Thickness of Member under Compression for Gasket Joint

Go Thickness of Member under Compression = (pi*(Nominal Bolt Diameter on Cylinder^2)/4)*(Modulus of elasticity for gasket joint/Approximate Stiffness of Gasketed Joint)

Young's Modulus of Gasket Joint

Go Modulus of elasticity for gasket joint = 4*Approximate Stiffness of Gasketed Joint*Thickness of Member under Compression/(pi*(Nominal Bolt Diameter on Cylinder^2))

Stiffness of Cylinder Flange of Gasket Joint

Go Stiffness of Pressurized Cylinder Flange = 1/((1/Combined stiffness for gasket joint)-((1/Stiffness of Pressurized Cylinder Cover)+(1/Stiffness of Gasket)))

Stiffness of Cylinder Cover of Gasket Joint

Go Stiffness of Pressurized Cylinder Cover = 1/((1/Combined stiffness for gasket joint)-((1/Stiffness of Pressurized Cylinder Flange)+(1/Stiffness of Gasket)))

Stiffness of Gasket of Gasket Joint

Go Stiffness of Gasket = 1/((1/Combined stiffness for gasket joint)-((1/Stiffness of Pressurized Cylinder Cover)+(1/Stiffness of Pressurized Cylinder Flange)))

Combined Stiffness of Cylinder Cover, Cylinder Flange and Gasket

Go Combined stiffness for gasket joint = 1/((1/Stiffness of Pressurized Cylinder Cover)+(1/Stiffness of Pressurized Cylinder Flange)+(1/Stiffness of Gasket))

Total Deformation of Pressure Vessel given Increase in Inner Diameter of Jacket

Go Total Deformation of Pressure Vessel = Increase in Inner Diameter of Jacket+Decrease in Outer Diameter of Cylinder

Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel

Go Increase in Inner Diameter of Jacket = Total Deformation of Pressure Vessel-Decrease in Outer Diameter of Cylinder

Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel Formula

Increase in Inner Diameter of Jacket = Total Deformation of Pressure Vessel-Decrease in Outer Diameter of Cylinder
δ_j = δ-δ_c

What is a Pressure Vessel?

A pressure vessel is a container designed to hold gases or liquids at a pressure substantially different from the ambient pressure.

How to Calculate Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel?

Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel calculator uses Increase in Inner Diameter of Jacket = Total Deformation of Pressure Vessel-Decrease in Outer Diameter of Cylinder to calculate the Increase in Inner Diameter of Jacket, Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel formula is defined as the difference between the total deformation and the decrease in the outer diameter of the cylinder. Increase in Inner Diameter of Jacket is denoted by δ_j symbol.

How to calculate Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel using this online calculator? To use this online calculator for Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel, enter Total Deformation of Pressure Vessel (δ) & Decrease in Outer Diameter of Cylinder (δ_c) and hit the calculate button. Here is how the Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel calculation can be explained with given input values -> 400 = 0.0012-0.0008.

FAQ

What is Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel?

Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel formula is defined as the difference between the total deformation and the decrease in the outer diameter of the cylinder and is represented as δ_j = δ-δ_c or Increase in Inner Diameter of Jacket = Total Deformation of Pressure Vessel-Decrease in Outer Diameter of Cylinder. The Total Deformation of Pressure Vessel Value is measured as the sum of the increase in the inner diameter of the jacket and decrease in the outer diameter of cylinder & The Decrease in Outer Diameter of Cylinder Value is measured as the difference between total deformation of the pressure vessel and increase in the inner diameter of the jacket.

How to calculate Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel?

Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel formula is defined as the difference between the total deformation and the decrease in the outer diameter of the cylinder is calculated using Increase in Inner Diameter of Jacket = Total Deformation of Pressure Vessel-Decrease in Outer Diameter of Cylinder. To calculate Increase in Inner Diameter of Jacket given Total deformation of Pressure Vessel, you need Total Deformation of Pressure Vessel (δ) & Decrease in Outer Diameter of Cylinder (δ_c). With our tool, you need to enter the respective value for Total Deformation of Pressure Vessel & Decrease in Outer Diameter of Cylinder and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

Home

FREE PDFs

🔍 Search