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Maximum Compressive Load acting on Bracket Formula

GoMaximum Compressive Load on Remote Bracket due to Dead Load Formula

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Maximum Compressive Load on Remote Bracket is the highest amount of compressive force that a material or structure can withstand before it deforms or breaks. Check FAQs

P Load = \frac{(4 \cdot (Wind Force)) \cdot (Height - c)}{N \cdot D bc} + (\frac{ΣW}{N})

P_Load - Maximum Compressive Load on Remote Bracket?Wind_Force - Total Wind Force acting on Vessel?Height - Height of Vessel above Foundation?c - Clearance between Vessel Bottom and Foundation?N - Number of Brackets?D_bc - Diameter of Anchor Bolt Circle?ΣW - Total Weight of Vessel?

Maximum Compressive Load acting on Bracket Example

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Here is how the Maximum Compressive Load acting on Bracket equation looks like with Values.

Here is how the Maximum Compressive Load acting on Bracket equation looks like with Units.

Here is how the Maximum Compressive Load acting on Bracket equation looks like.

59866.0066 = \frac{(4 \cdot (3841.6)) \cdot (4000 - 1250)}{2 \cdot 606} + (\frac{50000}{2})

59866.0066N = \frac{(4 \cdot (3841.6N)) \cdot (4000mm - 1250mm)}{2 \cdot 606mm} + (\frac{50000N}{2})

59866.0066 = \frac{(4 \cdot (3841.6)) \cdot (4000 - 1250)}{2 \cdot 606} + (\frac{50000}{2})

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Maximum Compressive Load acting on Bracket Solution

Follow our step by step solution on how to calculate Maximum Compressive Load acting on Bracket?

FIRST Step Consider the formula

P Load = \frac{(4 \cdot (Wind Force)) \cdot (Height - c)}{N \cdot D bc} + (\frac{ΣW}{N})

Next Step Substitute values of Variables

∴

P Load = \frac{(4 \cdot (3841.6N)) \cdot (4000mm - 1250mm)}{2 \cdot 606mm} + (\frac{50000N}{2})

Next Step Prepare to Evaluate

∴

P Load = \frac{(4 \cdot (3841.6)) \cdot (4000 - 1250)}{2 \cdot 606} + (\frac{50000}{2})

Next Step Evaluate

∴

P Load = 59866.0066006601N

LAST Step Rounding Answer

∴

P Load = 59866.0066N

Maximum Compressive Load acting on Bracket Formula Elements

Variables

Maximum Compressive Load on Remote Bracket

Maximum Compressive Load on Remote Bracket is the highest amount of compressive force that a material or structure can withstand before it deforms or breaks.

Symbol: P_Load

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Maximum Compressive Load on Remote Bracket

Total Wind Force acting on Vessel

Total Wind Force acting on Vessel refers to the force per unit area exerted by the wind on the surface of the vessel.

Symbol: Wind_Force

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Total Wind Force acting on Vessel

Height of Vessel above Foundation

Height of Vessel above Foundation refers to the vertical distance between the base of the vessel and the topmost point of the vessel's structure.

Symbol: Height

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Height of Vessel above Foundation

Clearance between Vessel Bottom and Foundation

Clearance between Vessel Bottom and Foundation refers to the vertical distance between the lowest point of the vessel's hull and the foundation on which it rests.

Symbol: c

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Clearance between Vessel Bottom and Foundation

Number of Brackets

Number of Brackets required will depend on the weight and size of the equipment or structure that needs to be supported, as well as the load-bearing capacity of the brackets themselves.

Symbol: N

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Number of Brackets

Diameter of Anchor Bolt Circle

Diameter of Anchor Bolt Circle refers to the distance between the centers of two bolts that are located on opposite sides of a circular pattern of bolts used to secure a vessel.

Symbol: D_bc

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Diameter of Anchor Bolt Circle

Total Weight of Vessel

Total Weight of Vessel with Attachment widely depends on its size, material, and function.

Symbol: ΣW

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Total Weight of Vessel

Other Formulas to find Maximum Compressive Load on Remote Bracket

Go Maximum Compressive Load on Remote Bracket due to Dead Load

P Load = \frac{ΣW}{N}

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Go Maximum Compressive Stress Parallel to Edge of Gusset Plate

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How to Evaluate Maximum Compressive Load acting on Bracket?

Maximum Compressive Load acting on Bracket evaluator uses Maximum Compressive Load on Remote Bracket = ((4*(Total Wind Force acting on Vessel))*(Height of Vessel above Foundation-Clearance between Vessel Bottom and Foundation))/(Number of Brackets*Diameter of Anchor Bolt Circle)+(Total Weight of Vessel/Number of Brackets) to evaluate the Maximum Compressive Load on Remote Bracket, Maximum Compressive Load acting on Bracket refers to the force that presses the bracket together, causing it to compress or deform. Maximum Compressive Load on Remote Bracket is denoted by P_Load symbol.

How to evaluate Maximum Compressive Load acting on Bracket using this online evaluator? To use this online evaluator for Maximum Compressive Load acting on Bracket, enter Total Wind Force acting on Vessel (Wind_Force), Height of Vessel above Foundation (Height), Clearance between Vessel Bottom and Foundation (c), Number of Brackets (N), Diameter of Anchor Bolt Circle (D_bc) & Total Weight of Vessel (ΣW) and hit the calculate button.

FAQs on Maximum Compressive Load acting on Bracket

What is the formula to find Maximum Compressive Load acting on Bracket?

The formula of Maximum Compressive Load acting on Bracket is expressed as Maximum Compressive Load on Remote Bracket = ((4*(Total Wind Force acting on Vessel))*(Height of Vessel above Foundation-Clearance between Vessel Bottom and Foundation))/(Number of Brackets*Diameter of Anchor Bolt Circle)+(Total Weight of Vessel/Number of Brackets). Here is an example- 59866.01 = ((4*(3841.6))*(4-1.25))/(2*0.606)+(50000/2).

How to calculate Maximum Compressive Load acting on Bracket?

With Total Wind Force acting on Vessel (Wind_Force), Height of Vessel above Foundation (Height), Clearance between Vessel Bottom and Foundation (c), Number of Brackets (N), Diameter of Anchor Bolt Circle (D_bc) & Total Weight of Vessel (ΣW) we can find Maximum Compressive Load acting on Bracket using the formula - Maximum Compressive Load on Remote Bracket = ((4*(Total Wind Force acting on Vessel))*(Height of Vessel above Foundation-Clearance between Vessel Bottom and Foundation))/(Number of Brackets*Diameter of Anchor Bolt Circle)+(Total Weight of Vessel/Number of Brackets).

What are the other ways to Calculate Maximum Compressive Load on Remote Bracket?

Here are the different ways to Calculate Maximum Compressive Load on Remote Bracket-

Maximum Compressive Load on Remote Bracket=Total Weight of Vessel/Number of Brackets

Can the Maximum Compressive Load acting on Bracket be negative?

No, the Maximum Compressive Load acting on Bracket, measured in Force cannot be negative.

Which unit is used to measure Maximum Compressive Load acting on Bracket?

Maximum Compressive Load acting on Bracket is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Maximum Compressive Load acting on Bracket can be measured.

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Maximum Compressive Load acting on Bracket Formula

​GoMaximum Compressive Load on Remote Bracket due to Dead Load Formula

Maximum Compressive Load acting on Bracket Example

Maximum Compressive Load acting on Bracket Solution

Maximum Compressive Load acting on Bracket Formula Elements

Other Formulas to find Maximum Compressive Load on Remote Bracket

Other formulas in Lug or Bracket Support category

How to Evaluate Maximum Compressive Load acting on Bracket?

FAQs on Maximum Compressive Load acting on Bracket

Variable Name

GoMaximum Compressive Load on Remote Bracket due to Dead Load Formula