## Thickness of Bearing Plate inside Chair Solution

STEP 0: Pre-Calculation Summary
Formula Used
Thickness of Bearing Plate inside Chair = sqrt((6*Maximum Bending Moment in Bearing Plate)/((Width of Bearing Plate-Diameter of Bolt Hole in Bearing Plate)*Allowable Stress in Bolt Material))
tbp = sqrt((6*MaximumBM)/((Wbp-dbh)*fall))
This formula uses 1 Functions, 5 Variables
Functions Used
sqrt - Square root function, sqrt(Number)
Variables Used
Thickness of Bearing Plate inside Chair - (Measured in Millimeter) - Thickness of Bearing Plate inside Chair refers to the distance between two parallel surfaces of an object or material.
Maximum Bending Moment in Bearing Plate - (Measured in Newton Meter) - Maximum Bending Moment in Bearing Plate inside Chair is the maximum internal bending moment that occurs subjected to a bending load.
Width of Bearing Plate - (Measured in Millimeter) - Width of Bearing Plate refers to the distance between two opposite surfaces of a plate, sheet, or other flat material.
Diameter of Bolt Hole in Bearing Plate - (Measured in Millimeter) - Diameter of Bolt Hole in Bearing Plate based on the load-bearing capacity of the plate and the expected loads and stresses on the joint.
Allowable Stress in Bolt Material - (Measured in Newton per Square Millimeter) - Allowable Stress in Bolt Material is defined as the material failure stress (a property of the material) divided by a factor of safety greater than one.
STEP 1: Convert Input(s) to Base Unit
Maximum Bending Moment in Bearing Plate: 2000546 Newton Millimeter --> 2000.546 Newton Meter (Check conversion here)
Width of Bearing Plate: 501 Millimeter --> 501 Millimeter No Conversion Required
Diameter of Bolt Hole in Bearing Plate: 400 Millimeter --> 400 Millimeter No Conversion Required
Allowable Stress in Bolt Material: 88 Newton per Square Millimeter --> 88 Newton per Square Millimeter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
tbp = sqrt((6*MaximumBM)/((Wbp-dbh)*fall)) --> sqrt((6*2000.546)/((501-400)*88))
Evaluating ... ...
tbp = 1.16211169874502
STEP 3: Convert Result to Output's Unit
0.00116211169874502 Meter -->1.16211169874502 Millimeter (Check conversion here)
1.16211169874502 1.162112 Millimeter <-- Thickness of Bearing Plate inside Chair
(Calculation completed in 00.005 seconds)
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## < 16 Design Thickness of Skirt Calculators

Wind Load acting on Lower Part of Vessel
Wind Load acting on Lower Part of Vessel = Coefficient depending on Shape Factor*Coefficient Period of One Cycle of Vibration*Wind Pressure acting on Lower Part of Vessel*Height of Lower Part of Vessel*Outside Diameter of Vessel
Wind Load acting on Upper Part of Vessel
Wind Load acting on Upper Part of Vessel = Coefficient depending on Shape Factor*Coefficient Period of One Cycle of Vibration*Wind Pressure acting on Upper Part of Vessel*Height of Upper Part of Vessel*Outside Diameter of Vessel
Maximum Wind Moment for Vessel with Total Height Greater than 20m
Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Height of Lower Part of Vessel/2)+Wind Load acting on Upper Part of Vessel*(Height of Lower Part of Vessel+(Height of Upper Part of Vessel/2))
Thickness of Bearing Plate inside Chair
Thickness of Bearing Plate inside Chair = sqrt((6*Maximum Bending Moment in Bearing Plate)/((Width of Bearing Plate-Diameter of Bolt Hole in Bearing Plate)*Allowable Stress in Bolt Material))
Total Compressive Load on Base Ring
Total Compressive Load at Base Ring = (((4*Maximum Bending Moment)/((pi)*(Mean Diameter of Skirt)^(2)))+(Total Weight of Vessel/(pi*Mean Diameter of Skirt)))
Thickness of Base Bearing Plate
Thickness of Base Bearing Plate = Difference Outer Radius of Bearing Plate and Skirt*(sqrt((3*Maximum Compressive Stress)/(Allowable Bending Stress)))
Thickness of Skirt in Vessel
Thickness of Skirt in Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Axial Bending Stress at Base of Vessel)
Axial Bending Stress due to Wind Load at Base of Vessel
Axial Bending Stress at Base of Vessel = (4*Maximum Wind Moment)/(pi*(Mean Diameter of Skirt)^(2)*Thickness of Skirt)
Maximum Bending Stress in Base Ring Plate
Maximum Bending Stress in Base Ring Plate = (6*Maximum Bending Moment)/(Circumferential Length of Bearing Plate*Thickness of Base Bearing Plate^(2))
Compressive Stress due to Vertical Downward Force
Compressive Stress due to Force = Total Weight of Vessel/(pi*Mean Diameter of Skirt*Thickness of Skirt)
Minimum Width of Base Ring
Minimum Width of Base Ring = Total Compressive Load at Base Ring/Stress in Bearing Plate and Concrete Foundation
Maximum Wind Moment for Vessel with Total Height Less than 20m
Maximum Wind Moment = Wind Load acting on Lower Part of Vessel*(Total Height of Vessel/2)
Maximum Bending Moment in Bearing Plate Inside Chair
Maximum Bending Moment in Bearing Plate = (Load on Each Bolt*Spacing Inside Chairs)/8
Maximum Tensile Stress
Maximum Tensile Stress = Stress due to Bending Moment-Compressive Stress due to Force
Moment Arm for Minimum Weight of Vessel
Moment Arm for Minimum Weight of Vessel = 0.42*Outer Diameter of Bearing Plate
Minimum Wind Pressure at Vessel
Minimum Wind Pressure = 0.05*(Maximum Wind Velocity)^(2)

## Thickness of Bearing Plate inside Chair Formula

Thickness of Bearing Plate inside Chair = sqrt((6*Maximum Bending Moment in Bearing Plate)/((Width of Bearing Plate-Diameter of Bolt Hole in Bearing Plate)*Allowable Stress in Bolt Material))
tbp = sqrt((6*MaximumBM)/((Wbp-dbh)*fall))

## What is Design Thickness?

Design thickness is an important parameter that impacts the mechanical strength, durability, and performance of the product. The thickness of a material or component can affect its ability to withstand loads, stresses, and environmental conditions, and can also impact its manufacturing process and cost. For example, in designing a pressure vessel, the design thickness of the vessel walls would be calculated to ensure that the vessel can withstand the expected pressure and temperature while remaining safe and reliable. Similarly, in designing a sheet metal part, the designer may specify a minimum and maximum thickness to ensure that the part is strong enough to withstand the expected loads and forces.

## How to Calculate Thickness of Bearing Plate inside Chair?

Thickness of Bearing Plate inside Chair calculator uses Thickness of Bearing Plate inside Chair = sqrt((6*Maximum Bending Moment in Bearing Plate)/((Width of Bearing Plate-Diameter of Bolt Hole in Bearing Plate)*Allowable Stress in Bolt Material)) to calculate the Thickness of Bearing Plate inside Chair, The Thickness of Bearing Plate inside Chair formula is defined as the distance between two parallel surfaces of a Plate which can vary depending on several factors, such as the size and weight of the vessel, the operating conditions, and the material of the plate. Thickness of Bearing Plate inside Chair is denoted by tbp symbol.

How to calculate Thickness of Bearing Plate inside Chair using this online calculator? To use this online calculator for Thickness of Bearing Plate inside Chair, enter Maximum Bending Moment in Bearing Plate (MaximumBM), Width of Bearing Plate (Wbp), Diameter of Bolt Hole in Bearing Plate (dbh) & Allowable Stress in Bolt Material (fall) and hit the calculate button. Here is how the Thickness of Bearing Plate inside Chair calculation can be explained with given input values -> 36.7492 = sqrt((6*2000.546)/((0.501-0.4)*88000000)).

### FAQ

What is Thickness of Bearing Plate inside Chair?
The Thickness of Bearing Plate inside Chair formula is defined as the distance between two parallel surfaces of a Plate which can vary depending on several factors, such as the size and weight of the vessel, the operating conditions, and the material of the plate and is represented as tbp = sqrt((6*MaximumBM)/((Wbp-dbh)*fall)) or Thickness of Bearing Plate inside Chair = sqrt((6*Maximum Bending Moment in Bearing Plate)/((Width of Bearing Plate-Diameter of Bolt Hole in Bearing Plate)*Allowable Stress in Bolt Material)). Maximum Bending Moment in Bearing Plate inside Chair is the maximum internal bending moment that occurs subjected to a bending load, Width of Bearing Plate refers to the distance between two opposite surfaces of a plate, sheet, or other flat material, Diameter of Bolt Hole in Bearing Plate based on the load-bearing capacity of the plate and the expected loads and stresses on the joint & Allowable Stress in Bolt Material is defined as the material failure stress (a property of the material) divided by a factor of safety greater than one.
How to calculate Thickness of Bearing Plate inside Chair?
The Thickness of Bearing Plate inside Chair formula is defined as the distance between two parallel surfaces of a Plate which can vary depending on several factors, such as the size and weight of the vessel, the operating conditions, and the material of the plate is calculated using Thickness of Bearing Plate inside Chair = sqrt((6*Maximum Bending Moment in Bearing Plate)/((Width of Bearing Plate-Diameter of Bolt Hole in Bearing Plate)*Allowable Stress in Bolt Material)). To calculate Thickness of Bearing Plate inside Chair, you need Maximum Bending Moment in Bearing Plate (MaximumBM), Width of Bearing Plate (Wbp), Diameter of Bolt Hole in Bearing Plate (dbh) & Allowable Stress in Bolt Material (fall). With our tool, you need to enter the respective value for Maximum Bending Moment in Bearing Plate, Width of Bearing Plate, Diameter of Bolt Hole in Bearing Plate & Allowable Stress in Bolt Material 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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