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Maximum Axial Stress in Coil at Junction with Shell Formula

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Maximum Axial Stress in Coil at Junction with Shell the result of a force acting perpendicular to an area of a coil, causing the extension or compression of the material. Check FAQs

f ac = \frac{p j \cdot d i}{(4 \cdot t coil \cdot J coil) + (2.5 \cdot t \cdot J)}

f_ac - Maximum Axial Stress in Coil at Junction?p_j - Design Jacket Pressure?d_i - Internal Diameter of Half Coil?t_coil - Thickness of Half Coil Jacket?J_coil - Weld Joint Efficiency Factor for Coil?t - Shell Thickness?J - Joint Efficiency for Shell?

Maximum Axial Stress in Coil at Junction with Shell Example

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Here is how the Maximum Axial Stress in Coil at Junction with Shell equation looks like with Values.

Here is how the Maximum Axial Stress in Coil at Junction with Shell equation looks like with Units.

Here is how the Maximum Axial Stress in Coil at Junction with Shell equation looks like.

0.0125 = \frac{0.105 \cdot 54}{(4 \cdot 11.2 \cdot 0.6) + (2.5 \cdot 200 \cdot 0.85)}

0.0125N/mm² = \frac{0.105N/mm² \cdot 54mm}{(4 \cdot 11.2mm \cdot 0.6) + (2.5 \cdot 200mm \cdot 0.85)}

0.0125 = \frac{0.105 \cdot 54}{(4 \cdot 11.2 \cdot 0.6) + (2.5 \cdot 200 \cdot 0.85)}

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Maximum Axial Stress in Coil at Junction with Shell Solution

Follow our step by step solution on how to calculate Maximum Axial Stress in Coil at Junction with Shell?

FIRST Step Consider the formula

f ac = \frac{p j \cdot d i}{(4 \cdot t coil \cdot J coil) + (2.5 \cdot t \cdot J)}

Next Step Substitute values of Variables

∴

f ac = \frac{0.105N/mm² \cdot 54mm}{(4 \cdot 11.2mm \cdot 0.6) + (2.5 \cdot 200mm \cdot 0.85)}

Next Step Prepare to Evaluate

∴

f ac = \frac{0.105 \cdot 54}{(4 \cdot 11.2 \cdot 0.6) + (2.5 \cdot 200 \cdot 0.85)}

Next Step Evaluate

∴

f ac = 12547.5790032752Pa

Next Step Convert to Output's Unit

∴

f ac = 0.0125475790032752N/mm²

LAST Step Rounding Answer

∴

f ac = 0.0125N/mm²

Maximum Axial Stress in Coil at Junction with Shell Formula Elements

Variables

Maximum Axial Stress in Coil at Junction

Maximum Axial Stress in Coil at Junction with Shell the result of a force acting perpendicular to an area of a coil, causing the extension or compression of the material.

Symbol: f_ac

Measurement: StressUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find Maximum Axial Stress in Coil at Junction

Design Jacket Pressure

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.

Symbol: p_j

Measurement: PressureUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find Design Jacket Pressure

Internal Diameter of Half Coil

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.

Symbol: d_i

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Internal Diameter of Half Coil

Thickness of Half Coil Jacket

Thickness of Half Coil Jacket can be determined by considering the heat transfer coefficient, the surface area of the coil, and the temperature difference.

Symbol: t_coil

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Thickness of Half Coil Jacket

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.

Symbol: J_coil

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Weld Joint Efficiency Factor for Coil

Shell Thickness

Shell thickness is the the distance through the shell.

Symbol: t

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Shell Thickness

Joint Efficiency for Shell

Joint Efficiency for Shell refers to the effectiveness of the joint between two adjacent sections of a cylindrical shell, such as in a pressure vessel or a storage tank.

Symbol: J

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Joint Efficiency for Shell

Other formulas in Jacketed Reaction Vessel category

Go Required Thickness for Jacket Closer Member with Jacket Width

t rc = 0.886 \cdot w j \cdot \sqrt{\frac{p j}{f j}}

Go Jacket Width

w j = \frac{D ij - OD Vessel}{2}

How to Evaluate Maximum Axial Stress in Coil at Junction with Shell?

Maximum Axial Stress in Coil at Junction with Shell evaluator uses Maximum Axial Stress in Coil at Junction = (Design Jacket Pressure*Internal Diameter of Half Coil)/((4*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)+(2.5*Shell Thickness*Joint Efficiency for Shell)) to evaluate the Maximum Axial Stress in Coil at Junction, Maximum Axial Stress in Coil at Junction with Shell is defined as the result of a force acting perpendicular to an area of a coil, causing the extension or compression of the material. Maximum Axial Stress in Coil at Junction is denoted by f_ac symbol.

How to evaluate Maximum Axial Stress in Coil at Junction with Shell using this online evaluator? To use this online evaluator for Maximum Axial 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), Shell Thickness (t) & Joint Efficiency for Shell (J) and hit the calculate button.

FAQs on Maximum Axial Stress in Coil at Junction with Shell

What is the formula to find Maximum Axial Stress in Coil at Junction with Shell?

The formula of Maximum Axial Stress in Coil at Junction with Shell is expressed as Maximum Axial Stress in Coil at Junction = (Design Jacket Pressure*Internal Diameter of Half Coil)/((4*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)+(2.5*Shell Thickness*Joint Efficiency for Shell)). Here is an example- 1.3E-8 = (105000*0.054)/((4*0.0112*0.6)+(2.5*0.2*0.85)).

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

With 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), Shell Thickness (t) & Joint Efficiency for Shell (J) we can find Maximum Axial Stress in Coil at Junction with Shell using the formula - Maximum Axial Stress in Coil at Junction = (Design Jacket Pressure*Internal Diameter of Half Coil)/((4*Thickness of Half Coil Jacket*Weld Joint Efficiency Factor for Coil)+(2.5*Shell Thickness*Joint Efficiency for Shell)).

Can the Maximum Axial Stress in Coil at Junction with Shell be negative?

No, the Maximum Axial Stress in Coil at Junction with Shell, measured in Stress cannot be negative.

Which unit is used to measure Maximum Axial Stress in Coil at Junction with Shell?

Maximum Axial Stress in Coil at Junction with Shell is usually measured using the Newton per Square Millimeter[N/mm²] for Stress. Pascal[N/mm²], Newton per Square Meter[N/mm²], Kilonewton per Square Meter[N/mm²] are the few other units in which Maximum Axial Stress in Coil at Junction with Shell can be measured.

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Maximum Axial Stress in Coil at Junction with Shell Formula

Maximum Axial Stress in Coil at Junction with Shell Example

Maximum Axial Stress in Coil at Junction with Shell Solution

Maximum Axial Stress in Coil at Junction with Shell Formula Elements

Other formulas in Jacketed Reaction Vessel category

How to Evaluate Maximum Axial Stress in Coil at Junction with Shell?

FAQs on Maximum Axial Stress in Coil at Junction with Shell

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