Frictional Force given Minor diameter of bolt Solution

STEP 0: Pre-Calculation Summary
Formula Used
Friction Force in Metallic Gasket = ((Minor Diameter of Metallic Gasket Bolt-(sqrt(((Outside Diameter of Seal Ring)^2-(Nominal Diameter of Metallic Gasket Bolt)^2)*Fluid Pressure on Metallic Gasket Seal)/sqrt((Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket))))*3.14*Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket)/4
Fμ = ((d2-(sqrt(((d1)^2-(dgb)^2)*ps)/sqrt((i*Fc))))*3.14*i*Fc)/4
This formula uses 1 Functions, 7 Variables
Functions Used
sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)
Variables Used
Friction Force in Metallic Gasket - (Measured in Newton) - Friction force in metallic gasket is the force arising in the metallic gasket due to the friction between the surfaces.
Minor Diameter of Metallic Gasket Bolt - (Measured in Meter) - The Minor Diameter of Metallic Gasket Bolt is the core diameter of the bolt used in with the metallic gasket.
Outside Diameter of Seal Ring - (Measured in Meter) - The Outside Diameter of Seal Ring is any straight line segment that passes through the center of the ring and whose endpoints lie on the ring.
Nominal Diameter of Metallic Gasket Bolt - (Measured in Meter) - Nominal diameter of metallic gasket bolt is the major diameter of the bolt used in with the metallic gasket.
Fluid Pressure on Metallic Gasket Seal - (Measured in Pascal) - The Fluid Pressure on Metallic Gasket Seal refers to the pressure exerted by the fluid onto the metallic gasket seal.
Number of Bolts in Metallic Gasket Seal - Number of bolts in metallic gasket seal is simply defined as the number of bolts that are under our consideration.
Design Stress for Metallic Gasket - (Measured in Pascal) - Design Stress for metallic gasket is the stress for which the metallic gasket is designed.
STEP 1: Convert Input(s) to Base Unit
Minor Diameter of Metallic Gasket Bolt: 832 Millimeter --> 0.832 Meter (Check conversion ​here)
Outside Diameter of Seal Ring: 6 Millimeter --> 0.006 Meter (Check conversion ​here)
Nominal Diameter of Metallic Gasket Bolt: 4 Millimeter --> 0.004 Meter (Check conversion ​here)
Fluid Pressure on Metallic Gasket Seal: 4.25 Megapascal --> 4250000 Pascal (Check conversion ​here)
Number of Bolts in Metallic Gasket Seal: 2 --> No Conversion Required
Design Stress for Metallic Gasket: 0.00057 Newton per Square Millimeter --> 570 Pascal (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Fμ = ((d2-(sqrt(((d1)^2-(dgb)^2)*ps)/sqrt((i*Fc))))*3.14*i*Fc)/4 --> ((0.832-(sqrt(((0.006)^2-(0.004)^2)*4250000)/sqrt((2*570))))*3.14*2*570)/4
Evaluating ... ...
Fμ = 500.195996064508
STEP 3: Convert Result to Output's Unit
500.195996064508 Newton --> No Conversion Required
FINAL ANSWER
500.195996064508 500.196 Newton <-- Friction Force in Metallic Gasket
(Calculation completed in 00.004 seconds)

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national institute of technology hamirpur (NITH ), hamirpur , himachal pradesh
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Metallic Gaskets Calculators

Frictional Force given Minor diameter of bolt
​ LaTeX ​ Go Friction Force in Metallic Gasket = ((Minor Diameter of Metallic Gasket Bolt-(sqrt(((Outside Diameter of Seal Ring)^2-(Nominal Diameter of Metallic Gasket Bolt)^2)*Fluid Pressure on Metallic Gasket Seal)/sqrt((Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket))))*3.14*Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket)/4
Minor Diameter of Bolt given Working Strength
​ LaTeX ​ Go Minor Diameter of Metallic Gasket Bolt = (sqrt(((Outside Diameter of Seal Ring)^2-(Nominal Diameter of Metallic Gasket Bolt)^2)*Fluid Pressure on Metallic Gasket Seal)/sqrt((Number of Bolts in Metallic Gasket Seal*68.7)))+(4*Friction Force in Metallic Gasket)/(3.14*Number of Bolts in Metallic Gasket Seal*68.7)

Frictional Force given Minor diameter of bolt Formula

​LaTeX ​Go
Friction Force in Metallic Gasket = ((Minor Diameter of Metallic Gasket Bolt-(sqrt(((Outside Diameter of Seal Ring)^2-(Nominal Diameter of Metallic Gasket Bolt)^2)*Fluid Pressure on Metallic Gasket Seal)/sqrt((Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket))))*3.14*Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket)/4
Fμ = ((d2-(sqrt(((d1)^2-(dgb)^2)*ps)/sqrt((i*Fc))))*3.14*i*Fc)/4

What is Frictional force ?

Frictional force is defined as the force that resists motion when the surface of one object comes in contact with the surface of another.

How to Calculate Frictional Force given Minor diameter of bolt?

Frictional Force given Minor diameter of bolt calculator uses Friction Force in Metallic Gasket = ((Minor Diameter of Metallic Gasket Bolt-(sqrt(((Outside Diameter of Seal Ring)^2-(Nominal Diameter of Metallic Gasket Bolt)^2)*Fluid Pressure on Metallic Gasket Seal)/sqrt((Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket))))*3.14*Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket)/4 to calculate the Friction Force in Metallic Gasket, The Frictional Force given Minor diameter of bolt formula is defined as the force that resists motion when the surface of one object comes in contact with the surface of another. Friction Force in Metallic Gasket is denoted by Fμ symbol.

How to calculate Frictional Force given Minor diameter of bolt using this online calculator? To use this online calculator for Frictional Force given Minor diameter of bolt, enter Minor Diameter of Metallic Gasket Bolt (d2), Outside Diameter of Seal Ring (d1), Nominal Diameter of Metallic Gasket Bolt (dgb), Fluid Pressure on Metallic Gasket Seal (ps), Number of Bolts in Metallic Gasket Seal (i) & Design Stress for Metallic Gasket (Fc) and hit the calculate button. Here is how the Frictional Force given Minor diameter of bolt calculation can be explained with given input values -> 3.2E+7 = ((0.832-(sqrt(((0.006)^2-(0.004)^2)*4250000)/sqrt((2*570))))*3.14*2*570)/4.

FAQ

What is Frictional Force given Minor diameter of bolt?
The Frictional Force given Minor diameter of bolt formula is defined as the force that resists motion when the surface of one object comes in contact with the surface of another and is represented as Fμ = ((d2-(sqrt(((d1)^2-(dgb)^2)*ps)/sqrt((i*Fc))))*3.14*i*Fc)/4 or Friction Force in Metallic Gasket = ((Minor Diameter of Metallic Gasket Bolt-(sqrt(((Outside Diameter of Seal Ring)^2-(Nominal Diameter of Metallic Gasket Bolt)^2)*Fluid Pressure on Metallic Gasket Seal)/sqrt((Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket))))*3.14*Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket)/4. The Minor Diameter of Metallic Gasket Bolt is the core diameter of the bolt used in with the metallic gasket, The Outside Diameter of Seal Ring is any straight line segment that passes through the center of the ring and whose endpoints lie on the ring, Nominal diameter of metallic gasket bolt is the major diameter of the bolt used in with the metallic gasket, The Fluid Pressure on Metallic Gasket Seal refers to the pressure exerted by the fluid onto the metallic gasket seal, Number of bolts in metallic gasket seal is simply defined as the number of bolts that are under our consideration & Design Stress for metallic gasket is the stress for which the metallic gasket is designed.
How to calculate Frictional Force given Minor diameter of bolt?
The Frictional Force given Minor diameter of bolt formula is defined as the force that resists motion when the surface of one object comes in contact with the surface of another is calculated using Friction Force in Metallic Gasket = ((Minor Diameter of Metallic Gasket Bolt-(sqrt(((Outside Diameter of Seal Ring)^2-(Nominal Diameter of Metallic Gasket Bolt)^2)*Fluid Pressure on Metallic Gasket Seal)/sqrt((Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket))))*3.14*Number of Bolts in Metallic Gasket Seal*Design Stress for Metallic Gasket)/4. To calculate Frictional Force given Minor diameter of bolt, you need Minor Diameter of Metallic Gasket Bolt (d2), Outside Diameter of Seal Ring (d1), Nominal Diameter of Metallic Gasket Bolt (dgb), Fluid Pressure on Metallic Gasket Seal (ps), Number of Bolts in Metallic Gasket Seal (i) & Design Stress for Metallic Gasket (Fc). With our tool, you need to enter the respective value for Minor Diameter of Metallic Gasket Bolt, Outside Diameter of Seal Ring, Nominal Diameter of Metallic Gasket Bolt, Fluid Pressure on Metallic Gasket Seal, Number of Bolts in Metallic Gasket Seal & Design Stress for Metallic Gasket 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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