Radial Distance from Gasket Load Reaction to Bolt Circle Calculator

✖Bolt Circle Diameter is the diameter of the circle on which the holes will be evenly distributed.ⓘ Bolt Circle Diameter [B]			+10% -10%
✖Diameter of Gasket at Load Reaction typically refers to the size or measurement of the gasket when subjected to a specific load or pressure.ⓘ Diameter of Gasket at Load Reaction [G]			+10% -10%

✖Radial Distance from Gasket Load Reaction to Bolt Circle is defined as distance between whisker sensor's pivot point to whisker-object contact point.ⓘ Radial Distance from Gasket Load Reaction to Bolt Circle [h_G]

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Formula

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Radial Distance from Gasket Load Reaction to Bolt Circle

Formula

`"h"_{"G"} = ("B"-"G")/2`

Example

`"1.82m"=("4.1m"-"0.46m")/2`

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Download Design of Pressure Vessel Subjected to Internal Pressure Formulas PDF

Radial Distance from Gasket Load Reaction to Bolt Circle Solution

STEP 0: Pre-Calculation Summary

Formula Used

Radial Distance = (Bolt Circle Diameter-Diameter of Gasket at Load Reaction)/2
h_G = (B-G)/2
This formula uses 3 Variables

Variables Used

Radial Distance - (Measured in Meter) - Radial Distance from Gasket Load Reaction to Bolt Circle is defined as distance between whisker sensor's pivot point to whisker-object contact point.
Bolt Circle Diameter - (Measured in Meter) - Bolt Circle Diameter is the diameter of the circle on which the holes will be evenly distributed.
Diameter of Gasket at Load Reaction - (Measured in Meter) - Diameter of Gasket at Load Reaction typically refers to the size or measurement of the gasket when subjected to a specific load or pressure.

STEP 1: Convert Input(s) to Base Unit

Bolt Circle Diameter: 4.1 Meter --> 4.1 Meter No Conversion Required
Diameter of Gasket at Load Reaction: 0.46 Meter --> 0.46 Meter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

h_G = (B-G)/2 --> (4.1-0.46)/2

Evaluating ... ...

h_G = 1.82

STEP 3: Convert Result to Output's Unit

1.82 Meter --> No Conversion Required

FINAL ANSWER

1.82 Meter <-- Radial Distance

(Calculation completed in 00.004 seconds)

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< 17 Design of Pressure Vessel Subjected to Internal Pressure Calculators

Coefficient Value for Thickness of Flange

Go Coefficient Value for Thickness of Flange = ((1)/((0.3)+(1.5*Maximum Bolt Loads*Radial Distance)/(Hydrostatic End Force in Gasket Seal*Diameter of Gasket at Load Reaction)))

Gasket Factor

Go Gasket Factor = (Total Fastener Force-Inside Area of Gasket*Test Pressure)/(Gasket Area*Test Pressure)

Longitudinal Stress (Axial Stress) in Cylindrical Shell

Go Longitudinal Stress for Cylindrical Shell = (Internal Pressure given Longitudinal Stress*Mean Diameter of Shell)/4*Thickness of Cylindrical Shell

Internal Presure of Vessel given Longitudinal Stress

Go Internal Pressure given Longitudinal Stress = (4*Longitudinal Stress*Thickness of Cylindrical Shell)/(Mean Diameter of Shell)

Wall Thickness of Pressure Vessel given Longitudinal Stress

Go Thickness of Shell for Longitudinal Stress = (Internal Pressure for Vessel*Mean Diameter of Shell)/(4*Longitudinal Stress)

Wall Thickness of Cylindrical Shell Given Hoop Stress

Go Thickness of Shell for Hoop Stress = (2*Internal Pressure given Hoop Stress*Mean Diameter of Shell)/Circumferential Stress

Internal Pressure of Cylindrical Vessel given Hoop Stress

Go Internal Pressure given Hoop Stress = (2*Circumferential Stress*Thickness of Cylindrical Shell)/(Mean Diameter of Shell)

Circumferential Stress (Hoop Stress) in Cylinderical Shell

Go Circumferential Stress = (Internal Pressure for Vessel*Mean Diameter of Shell)/2*Thickness of Cylindrical Shell

Maximum Bolt Spacing

Go Maximum Bolt Spacing = 2*Nominal Bolt Diameter+(6*Thickness of Flange/Gasket Factor+0.5)

Hydrostatic End Force using Design Pressure

Go Hydrostatic End Force = (pi/4)*(Radial Distance^2)*Internal Pressure

Diameter of Gasket at Load Reaction

Go Diameter of Gasket at Load Reaction = Outside Diameter of Gasket-2*Effective Gasket Seating Width

Effective Thickness of Conical Head

Go Effective Thickness = Thickness of Conical Head*(cos(Apex Angle))

Hoop Strain

Go Hoop Strain = (Final Length-Initial Length)/(Initial Length)

Radial Distance from Gasket Load Reaction to Bolt Circle

Go Radial Distance = (Bolt Circle Diameter-Diameter of Gasket at Load Reaction)/2

Bolt Circle Diameter

Go Bolt Circle Diameter = Outside Diameter of Gasket+(2*Nominal Bolt Diameter)+12

Outside Diameter of Flange using Bolt Diameter

Go Outside Flange Diameter = Bolt Circle Diameter+2*Nominal Bolt Diameter+12

Minimum Bolt Spacing

Go Minimum Bolt Spacing = 2.5*Nominal Bolt Diameter

Radial Distance from Gasket Load Reaction to Bolt Circle Formula

Radial Distance = (Bolt Circle Diameter-Diameter of Gasket at Load Reaction)/2
h_G = (B-G)/2

What is Gasket?

A Gasket is a mechanical seal which fills the space between two or more mating surfaces, generally to prevent leakage from or into the joined objects while under compression. It is a deformable material that is used to create a static seal and maintain that seal under various operating conditions in a mechanical assembly.

How to Calculate Radial Distance from Gasket Load Reaction to Bolt Circle?

Radial Distance from Gasket Load Reaction to Bolt Circle calculator uses Radial Distance = (Bolt Circle Diameter-Diameter of Gasket at Load Reaction)/2 to calculate the Radial Distance, The Radial Distance from Gasket Load Reaction to Bolt Circle formula is used for the calculation of the approximate value of the thickness of the flange. Radial Distance is denoted by h_G symbol.

How to calculate Radial Distance from Gasket Load Reaction to Bolt Circle using this online calculator? To use this online calculator for Radial Distance from Gasket Load Reaction to Bolt Circle, enter Bolt Circle Diameter (B) & Diameter of Gasket at Load Reaction (G) and hit the calculate button. Here is how the Radial Distance from Gasket Load Reaction to Bolt Circle calculation can be explained with given input values -> 1.82 = (4.1-0.46)/2.

FAQ

What is Radial Distance from Gasket Load Reaction to Bolt Circle?

The Radial Distance from Gasket Load Reaction to Bolt Circle formula is used for the calculation of the approximate value of the thickness of the flange and is represented as h_G = (B-G)/2 or Radial Distance = (Bolt Circle Diameter-Diameter of Gasket at Load Reaction)/2. Bolt Circle Diameter is the diameter of the circle on which the holes will be evenly distributed & Diameter of Gasket at Load Reaction typically refers to the size or measurement of the gasket when subjected to a specific load or pressure.

How to calculate Radial Distance from Gasket Load Reaction to Bolt Circle?

The Radial Distance from Gasket Load Reaction to Bolt Circle formula is used for the calculation of the approximate value of the thickness of the flange is calculated using Radial Distance = (Bolt Circle Diameter-Diameter of Gasket at Load Reaction)/2. To calculate Radial Distance from Gasket Load Reaction to Bolt Circle, you need Bolt Circle Diameter (B) & Diameter of Gasket at Load Reaction (G). With our tool, you need to enter the respective value for Bolt Circle Diameter & Diameter of Gasket at Load Reaction and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.

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