Maximum Bending Moment at Junction of Skirt and Bearing Plate Calculator

✖Compressive stress is a force that causes a material to deform to occupy a smaller volume.ⓘ Compressive Stress [f_appliedload]			+10% -10%
✖Circumferential Length of Bearing Plate is the length of the outermost edge of the plate when measured around the circumference.ⓘ Circumferential Length of Bearing Plate [b]			+10% -10%
✖Difference Between Radius Bearing Plate and Skirt is primarily related to the different functions which helps to distribute the load more evenly and reduce stress concentrations.ⓘ Difference Between Radius Bearing Plate and Skirt [l]			+10% -10%

✖The Maximum Bending Moment at Junction of Skirt and Bearing Plate is determined by the maximum stress that the equipment will experience at the junction of the skirt and bearing plate.ⓘ Maximum Bending Moment at Junction of Skirt and Bearing Plate [M_max]

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Maximum Bending Moment at Junction of Skirt and Bearing Plate Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Bending Moment = Compressive Stress*Circumferential Length of Bearing Plate*(Difference Between Radius Bearing Plate and Skirt^(2)/2)
M_max = f_appliedload*b*(l^(2)/2)
This formula uses 4 Variables

Variables Used

Maximum Bending Moment - (Measured in Newton Meter) - The Maximum Bending Moment at Junction of Skirt and Bearing Plate is determined by the maximum stress that the equipment will experience at the junction of the skirt and bearing plate.
Compressive Stress - (Measured in Newton per Square Millimeter) - Compressive stress is a force that causes a material to deform to occupy a smaller volume.
Circumferential Length of Bearing Plate - (Measured in Millimeter) - Circumferential Length of Bearing Plate is the length of the outermost edge of the plate when measured around the circumference.
Difference Between Radius Bearing Plate and Skirt - (Measured in Millimeter) - Difference Between Radius Bearing Plate and Skirt is primarily related to the different functions which helps to distribute the load more evenly and reduce stress concentrations.

STEP 1: Convert Input(s) to Base Unit

Compressive Stress: 2.2 Newton per Square Millimeter --> 2.2 Newton per Square Millimeter No Conversion Required
Circumferential Length of Bearing Plate: 200 Millimeter --> 200 Millimeter No Conversion Required
Difference Between Radius Bearing Plate and Skirt: 7.6 Millimeter --> 7.6 Millimeter No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

M_max = f_appliedload*b*(l^(2)/2) --> 2.2*200*(7.6^(2)/2)

Evaluating ... ...

M_max = 12707.2

STEP 3: Convert Result to Output's Unit

12707.2 Newton Meter -->12707200 Newton Millimeter (Check conversion here)

FINAL ANSWER

12707200 ≈ 1.3E+7 Newton Millimeter <-- Maximum Bending Moment

(Calculation completed in 00.004 seconds)

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LaTeX Go Stress in Bearing Plate and Concrete Foundation = (Maximum Weight of Empty Vessel/Area between Bearing Plate & Concrete Foundation)-(Maximum Seismic Moment/Section Modulus of Area A)

Area between Bearing Plate and Concrete Foundation using Compressive Stress

LaTeX Go Area between Bearing Plate & Concrete Foundation = Total Weight of Vessel/(Maximum Compressive Stress of Concrete-(Maximum Seismic Moment/Section Modulus of Area A))

Compressive Stress between Bearing Plate and Concrete Foundation

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Maximum Bending Moment at Junction of Skirt and Bearing Plate

LaTeX Go Maximum Bending Moment = Compressive Stress*Circumferential Length of Bearing Plate*(Difference Between Radius Bearing Plate and Skirt^(2)/2)

Maximum Bending Moment at Junction of Skirt and Bearing Plate Formula

LaTeX Go

Maximum Bending Moment = Compressive Stress*Circumferential Length of Bearing Plate*(Difference Between Radius Bearing Plate and Skirt^(2)/2)
M_max = f_appliedload*b*(l^(2)/2)

What is a Design Basis?

A Design Basis is a comprehensive document that outlines the technical requirements, functional specifications, and performance criteria for the design of a system, product, or project. It serves as the foundation for the design process, ensuring that the design meets the project's objectives, safety requirements, regulatory standards, and customer expectations.
By creating a comprehensive Design Basis document at the outset of a project, designers and engineers can ensure that the design is aligned with the project's objectives and meets all relevant safety and regulatory requirements. It also serves as a benchmark for evaluating the success of the project and can be used to assess whether the final design meets the original specifications and objectives.

How to Calculate Maximum Bending Moment at Junction of Skirt and Bearing Plate?

Maximum Bending Moment at Junction of Skirt and Bearing Plate calculator uses Maximum Bending Moment = Compressive Stress*Circumferential Length of Bearing Plate*(Difference Between Radius Bearing Plate and Skirt^(2)/2) to calculate the Maximum Bending Moment, The Maximum Bending Moment at Junction of Skirt and Bearing Plate is determined by the maximum stress that the equipment will experience at the junction of the skirt and bearing plate. Maximum Bending Moment is denoted by M_max symbol.

How to calculate Maximum Bending Moment at Junction of Skirt and Bearing Plate using this online calculator? To use this online calculator for Maximum Bending Moment at Junction of Skirt and Bearing Plate, enter Compressive Stress (f_appliedload), Circumferential Length of Bearing Plate (b) & Difference Between Radius Bearing Plate and Skirt (l) and hit the calculate button. Here is how the Maximum Bending Moment at Junction of Skirt and Bearing Plate calculation can be explained with given input values -> 1.3E+10 = 2200000*0.2*(0.0076^(2)/2).

FAQ

What is Maximum Bending Moment at Junction of Skirt and Bearing Plate?

The Maximum Bending Moment at Junction of Skirt and Bearing Plate is determined by the maximum stress that the equipment will experience at the junction of the skirt and bearing plate and is represented as M_max = f_appliedload*b*(l^(2)/2) or Maximum Bending Moment = Compressive Stress*Circumferential Length of Bearing Plate*(Difference Between Radius Bearing Plate and Skirt^(2)/2). Compressive stress is a force that causes a material to deform to occupy a smaller volume, Circumferential Length of Bearing Plate is the length of the outermost edge of the plate when measured around the circumference & Difference Between Radius Bearing Plate and Skirt is primarily related to the different functions which helps to distribute the load more evenly and reduce stress concentrations.

How to calculate Maximum Bending Moment at Junction of Skirt and Bearing Plate?

The Maximum Bending Moment at Junction of Skirt and Bearing Plate is determined by the maximum stress that the equipment will experience at the junction of the skirt and bearing plate is calculated using Maximum Bending Moment = Compressive Stress*Circumferential Length of Bearing Plate*(Difference Between Radius Bearing Plate and Skirt^(2)/2). To calculate Maximum Bending Moment at Junction of Skirt and Bearing Plate, you need Compressive Stress (f_appliedload), Circumferential Length of Bearing Plate (b) & Difference Between Radius Bearing Plate and Skirt (l). With our tool, you need to enter the respective value for Compressive Stress, Circumferential Length of Bearing Plate & Difference Between Radius Bearing Plate and Skirt 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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