Maximum Hoop Stress in Coil at Junction with Shell Calculator

✖Design Jacket Pressure refers to a type of pressure vessel designed to withstand high pressures and temperatures, typically used for containing gases or liquids under extreme conditions.ⓘ Design Jacket Pressure [p_j]			+10% -10%
✖Internal Diameter of Half Coil is a measurement of the distance of a straight line from one point on the inner wall of the object, through its center, to an opposite point also on the inside.ⓘ Internal Diameter of Half Coil [d_i]			+10% -10%
✖Thickness of Half Coil Jacket can be determined by considering the heat transfer coefficient, the surface area of the coil, and the temperature difference.ⓘ Thickness of Half Coil Jacket [t_coil]			+10% -10%
✖Weld Joint Efficiency Factor for Coil is a measure of the strength of the weld relative to the strength of the base metal.ⓘ Weld Joint Efficiency Factor for Coil [J_coil]			+10% -10%

✖Maximum Hoop Stress in Coil at Junction with Shell is the stress around the circumference of the pipe due to a pressure gradient.ⓘ Maximum Hoop Stress in Coil at Junction with Shell [f_cc]

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Formula

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Maximum Hoop Stress in Coil at Junction with Shell

Formula

f cc = \frac{p j \cdot d i}{2 \cdot t coil \cdot J coil}

Example

0.421875 N/mm² = \frac{0.105 N/mm² \cdot 54 mm}{2 \cdot 11.2 mm \cdot 0.6}

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Maximum Hoop Stress in Coil at Junction with Shell Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Hoop Stress in Coil at Junction with Shell = (Design Jacket Pressure*Internal Diameter of Half Coil)/(2*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)
f_cc = (p_j*d_i)/(2*t_coil*J_coil)
This formula uses 5 Variables

Variables Used

Maximum Hoop Stress in Coil at Junction with Shell - (Measured in Newton per Square Millimeter) - Maximum Hoop Stress in Coil at Junction with Shell is the stress around the circumference of the pipe due to a pressure gradient.
Design Jacket Pressure - (Measured in Newton per Square Millimeter) - Design Jacket Pressure refers to a type of pressure vessel designed to withstand high pressures and temperatures, typically used for containing gases or liquids under extreme conditions.
Internal Diameter of Half Coil - (Measured in Millimeter) - Internal Diameter of Half Coil is a measurement of the distance of a straight line from one point on the inner wall of the object, through its center, to an opposite point also on the inside.
Thickness of Half Coil Jacket - (Measured in Millimeter) - Thickness of Half Coil Jacket can be determined by considering the heat transfer coefficient, the surface area of the coil, and the temperature difference.
Weld Joint Efficiency Factor for Coil - Weld Joint Efficiency Factor for Coil is a measure of the strength of the weld relative to the strength of the base metal.

STEP 1: Convert Input(s) to Base Unit

Design Jacket Pressure: 0.105 Newton per Square Millimeter --> 0.105 Newton per Square Millimeter No Conversion Required
Internal Diameter of Half Coil: 54 Millimeter --> 54 Millimeter No Conversion Required
Thickness of Half Coil Jacket: 11.2 Millimeter --> 11.2 Millimeter No Conversion Required
Weld Joint Efficiency Factor for Coil: 0.6 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

f_cc = (p_j*d_i)/(2*t_coil*J_coil) --> (0.105*54)/(2*11.2*0.6)

Evaluating ... ...

f_cc = 0.421875

STEP 3: Convert Result to Output's Unit

421875 Pascal -->0.421875 Newton per Square Millimeter (Check conversion here)

FINAL ANSWER

0.421875 Newton per Square Millimeter <-- Maximum Hoop Stress in Coil at Junction with Shell

(Calculation completed in 00.004 seconds)

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Maximum Hoop Stress in Coil at Junction with Shell

Go Maximum Hoop Stress in Coil at Junction with Shell = (Design Jacket Pressure*Internal Diameter of Half Coil)/(2*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)

Required Plate Thickness for Dimple Jacket

Go Required Thickness of Dimple Jacket = Maximum Pitch between Steam Weld Centre Lines*sqrt(Design Jacket Pressure/(3*Allowable Stress for Jacket Material))

Required Thickness for Jacket Closer Member with Jacket Width

Go Required Thickness for Jacket Closer Member = 0.886*Jacket Width*sqrt(Design Jacket Pressure/Allowable Stress for Jacket Material)

Jacket Width

Go Jacket Width = (Inside Diameter of Jacket-Outer Diameter of Vessel)/2

Maximum Hoop Stress in Coil at Junction with Shell Formula

What is Stress?

Stress is a physical quantity. It is a quantity that describes the magnitude of forces that cause deformation. Stress is defined as force per unit area. When an object is pulled apart by a force it will cause elongation which is also known as deformation, like the stretching of an elastic band, it is called tensile stress. But, when the forces result in the compression of an object, it is called compressive stress.

How to Calculate Maximum Hoop Stress in Coil at Junction with Shell?

Maximum Hoop Stress in Coil at Junction with Shell calculator uses Maximum Hoop Stress in Coil at Junction with Shell = (Design Jacket Pressure*Internal Diameter of Half Coil)/(2*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil) to calculate the Maximum Hoop Stress in Coil at Junction with Shell, Maximum Hoop Stress in Coil at Junction with Shell formula is defined as the stress that occurs along the coil circumference when pressure is applied. Maximum Hoop Stress in Coil at Junction with Shell is denoted by f_cc symbol.

How to calculate Maximum Hoop Stress in Coil at Junction with Shell using this online calculator? To use this online calculator for Maximum Hoop Stress in Coil at Junction with Shell, enter Design Jacket Pressure (p_j), Internal Diameter of Half Coil (d_i), Thickness of Half Coil Jacket (t_coil) & Weld Joint Efficiency Factor for Coil (J_coil) and hit the calculate button. Here is how the Maximum Hoop Stress in Coil at Junction with Shell calculation can be explained with given input values -> 4.2E-7 = (105000*0.054)/(2*0.0112*0.6).

FAQ

What is Maximum Hoop Stress in Coil at Junction with Shell?

Maximum Hoop Stress in Coil at Junction with Shell formula is defined as the stress that occurs along the coil circumference when pressure is applied and is represented as f_cc = (p_j*d_i)/(2*t_coil*J_coil) or Maximum Hoop Stress in Coil at Junction with Shell = (Design Jacket Pressure*Internal Diameter of Half Coil)/(2*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil). Design Jacket Pressure refers to a type of pressure vessel designed to withstand high pressures and temperatures, typically used for containing gases or liquids under extreme conditions, Internal Diameter of Half Coil is a measurement of the distance of a straight line from one point on the inner wall of the object, through its center, to an opposite point also on the inside, Thickness of Half Coil Jacket can be determined by considering the heat transfer coefficient, the surface area of the coil, and the temperature difference & Weld Joint Efficiency Factor for Coil is a measure of the strength of the weld relative to the strength of the base metal.

How to calculate Maximum Hoop Stress in Coil at Junction with Shell?

Maximum Hoop Stress in Coil at Junction with Shell formula is defined as the stress that occurs along the coil circumference when pressure is applied is calculated using Maximum Hoop Stress in Coil at Junction with Shell = (Design Jacket Pressure*Internal Diameter of Half Coil)/(2*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil). To calculate Maximum Hoop Stress in Coil at Junction with Shell, you need Design Jacket Pressure (p_j), Internal Diameter of Half Coil (d_i), Thickness of Half Coil Jacket (t_coil) & Weld Joint Efficiency Factor for Coil (J_coil). With our tool, you need to enter the respective value for Design Jacket Pressure, Internal Diameter of Half Coil, Thickness of Half Coil Jacket & Weld Joint Efficiency Factor for Coil 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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