Joint Efficiency given Plate Thickness Solution

STEP 0: Pre-Calculation Summary
Formula Used
Joint Efficiency of Pipe = (Internal Pressure of Pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Plate Thickness in Millimeter)
η = (Pi*r)/(σtp*pt)
This formula uses 5 Variables
Variables Used
Joint Efficiency of Pipe - Joint Efficiency of Pipe is a factor required in all head and shell calculations that accounts for how closely a finished weld joint.
Internal Pressure of Pipe - (Measured in Pascal) - Internal Pressure of Pipe is a measure of how the internal energy of a system changes when it expands or contracts at constant temperature.
Pipe Radius in Millimeter - (Measured in Meter) - Pipe Radius in Millimeter is the radius of the pipe through which the fluid is flowing.
Permissible Tensile Stress - (Measured in Pascal) - Permissible Tensile Stress is a stress that ensures that the stresses developed in a structure due to service loads do not exceed the elastic limit.
Plate Thickness in Millimeter - (Measured in Meter) - Plate Thickness in Millimeter is the distance through the bearing plate in mm.
STEP 1: Convert Input(s) to Base Unit
Internal Pressure of Pipe: 74.99 Megapascal --> 74990000 Pascal (Check conversion ​here)
Pipe Radius in Millimeter: 200 Millimeter --> 0.2 Meter (Check conversion ​here)
Permissible Tensile Stress: 75 Megapascal --> 75000000 Pascal (Check conversion ​here)
Plate Thickness in Millimeter: 100 Millimeter --> 0.1 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
η = (Pi*r)/(σtp*pt) --> (74990000*0.2)/(75000000*0.1)
Evaluating ... ...
η = 1.99973333333333
STEP 3: Convert Result to Output's Unit
1.99973333333333 --> No Conversion Required
FINAL ANSWER
1.99973333333333 1.999733 <-- Joint Efficiency of Pipe
(Calculation completed in 00.004 seconds)

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Created by Suraj Kumar
Birsa Institute of Technology (BIT), Sindri
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Meerut Institute of Engineering and Technology (MIET), Meerut
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Steel Pipes Calculators

Internal Pressure given Plate Thickness
​ LaTeX ​ Go Internal Pressure of Pipe = Plate Thickness in Millimeter/((Pipe Radius in Millimeter)/(Permissible Tensile Stress*Joint Efficiency of Pipe))
Radius of Pipe given Plate Thickness
​ LaTeX ​ Go Pipe Radius in Millimeter = Plate Thickness in Millimeter/((Internal Pressure of Pipe)/(Permissible Tensile Stress*Joint Efficiency of Pipe))
Plate Thickness Required to Resist Internal Pressure
​ LaTeX ​ Go Plate Thickness in Millimeter = (Internal Pressure of Pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Joint Efficiency of Pipe)
Permissible Tensile Stress given Plate Thickness
​ LaTeX ​ Go Permissible Tensile Stress = (Internal Pressure of Pipe*Pipe Radius in Millimeter)/(Plate Thickness in Millimeter*Joint Efficiency of Pipe)

Joint Efficiency given Plate Thickness Formula

​LaTeX ​Go
Joint Efficiency of Pipe = (Internal Pressure of Pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Plate Thickness in Millimeter)
η = (Pi*r)/(σtp*pt)

What is Joint Efficiency?

Joint efficiency is a factor required in all head and shell calculations that accounts for how closely a finished weld joint approximates the quality of the seamless parent material.

How to Calculate Joint Efficiency given Plate Thickness?

Joint Efficiency given Plate Thickness calculator uses Joint Efficiency of Pipe = (Internal Pressure of Pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Plate Thickness in Millimeter) to calculate the Joint Efficiency of Pipe, The Joint Efficiency given Plate Thickness formula is defined as a measure of how well a joint (such as a welded, bolted, or riveted connection) transfers load between connected plates, considering the thickness of the plates involved. Joint Efficiency of Pipe is denoted by η symbol.

How to calculate Joint Efficiency given Plate Thickness using this online calculator? To use this online calculator for Joint Efficiency given Plate Thickness, enter Internal Pressure of Pipe (Pi), Pipe Radius in Millimeter (r), Permissible Tensile Stress tp) & Plate Thickness in Millimeter (pt) and hit the calculate button. Here is how the Joint Efficiency given Plate Thickness calculation can be explained with given input values -> 0.2496 = (74990000*0.2)/(75000000*0.1).

FAQ

What is Joint Efficiency given Plate Thickness?
The Joint Efficiency given Plate Thickness formula is defined as a measure of how well a joint (such as a welded, bolted, or riveted connection) transfers load between connected plates, considering the thickness of the plates involved and is represented as η = (Pi*r)/(σtp*pt) or Joint Efficiency of Pipe = (Internal Pressure of Pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Plate Thickness in Millimeter). Internal Pressure of Pipe is a measure of how the internal energy of a system changes when it expands or contracts at constant temperature, Pipe Radius in Millimeter is the radius of the pipe through which the fluid is flowing, Permissible Tensile Stress is a stress that ensures that the stresses developed in a structure due to service loads do not exceed the elastic limit & Plate Thickness in Millimeter is the distance through the bearing plate in mm.
How to calculate Joint Efficiency given Plate Thickness?
The Joint Efficiency given Plate Thickness formula is defined as a measure of how well a joint (such as a welded, bolted, or riveted connection) transfers load between connected plates, considering the thickness of the plates involved is calculated using Joint Efficiency of Pipe = (Internal Pressure of Pipe*Pipe Radius in Millimeter)/(Permissible Tensile Stress*Plate Thickness in Millimeter). To calculate Joint Efficiency given Plate Thickness, you need Internal Pressure of Pipe (Pi), Pipe Radius in Millimeter (r), Permissible Tensile Stress tp) & Plate Thickness in Millimeter (pt). With our tool, you need to enter the respective value for Internal Pressure of Pipe, Pipe Radius in Millimeter, Permissible Tensile Stress & Plate Thickness in Millimeter 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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