Maximum Deflection of Corroded Plate Thickness Solution

STEP 0: Pre-Calculation Summary
Formula Used
Deflection = (Constant for Maximum Deflection*Hydrostatic Pressure*Longer Side of the Tank^(4))/(Modulus of Elasticity Jacketed Reaction Vessel*(Plate Thickness-Corrosion Allowance)^(3))
δs = (α*phydrostatic*l^(4))/(E*(pt-c)^(3))
This formula uses 7 Variables
Variables Used
Deflection - (Measured in Millimeter) - Deflection is the degree to which a structural element is displaced under a load (due to its deformation).
Constant for Maximum Deflection - Constant for Maximum Deflection is a number that has a fixed value in a given situation or universally or that is characteristic of without stiffeners.
Hydrostatic Pressure - (Measured in Newton per Square Millimeter) - Hydrostatic pressure refers to the pressure that any fluid in a confined space exerts. If fluid is in a container, there will be some pressure on the wall of that container.
Longer Side of the Tank - (Measured in Millimeter) - Longer Side of the Tank is the dimension of the tank that is measured along its longest side. The length of a tank is usually one of the key dimensions.
Modulus of Elasticity Jacketed Reaction Vessel - (Measured in Newton per Square Millimeter) - Modulus of Elasticity Jacketed Reaction Vessel refers to the measure of the vessel's ability to deform elastically under an applied load.
Plate Thickness - (Measured in Millimeter) - Plate Thickness is the distance through the bearing plate.
Corrosion Allowance - (Measured in Millimeter) - Corrosion allowance is defined as an extra thickness normally added to carbon and low alloy steel to mitigate the CO2 corrosion rate.
STEP 1: Convert Input(s) to Base Unit
Constant for Maximum Deflection: 3 --> No Conversion Required
Hydrostatic Pressure: 0.08 Newton per Square Millimeter --> 0.08 Newton per Square Millimeter No Conversion Required
Longer Side of the Tank: 1200 Millimeter --> 1200 Millimeter No Conversion Required
Modulus of Elasticity Jacketed Reaction Vessel: 170000 Newton per Square Millimeter --> 170000 Newton per Square Millimeter No Conversion Required
Plate Thickness: 100 Millimeter --> 100 Millimeter No Conversion Required
Corrosion Allowance: 10.5 Millimeter --> 10.5 Millimeter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
δs = (α*phydrostatic*l^(4))/(E*(pt-c)^(3)) --> (3*0.08*1200^(4))/(170000*(100-10.5)^(3))
Evaluating ... ...
δs = 4.08336496812851
STEP 3: Convert Result to Output's Unit
0.00408336496812851 Meter -->4.08336496812851 Millimeter (Check conversion ​here)
FINAL ANSWER
4.08336496812851 4.083365 Millimeter <-- Deflection
(Calculation completed in 00.007 seconds)

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Design of Shell Calculators

Minimum Thickness of Shell at Bottom
​ LaTeX ​ Go Minimum Thickness of Shell = ((Hydrostatic Pressure*Nominal Tank Diameter)/(2*Allowable Stress*Joint Efficiency for Shell))+Corrosion Allowance
Circumferential Length of Plate
​ LaTeX ​ Go Circumferential Length of the Plate = (pi*Nominal Tank Diameter)-(Weld Allowance*Number of Plates)
Pressure at Bottom of Tank
​ LaTeX ​ Go Hydrostatic Pressure = 10*Density of Liquid Stored*(Height of Tank-0.3)
Number of Layers
​ LaTeX ​ Go Number of Layers = Height of Tank/Width of Plate

Maximum Deflection of Corroded Plate Thickness Formula

​LaTeX ​Go
Deflection = (Constant for Maximum Deflection*Hydrostatic Pressure*Longer Side of the Tank^(4))/(Modulus of Elasticity Jacketed Reaction Vessel*(Plate Thickness-Corrosion Allowance)^(3))
δs = (α*phydrostatic*l^(4))/(E*(pt-c)^(3))

What is Design Length?

The design length of a structural element is the length of the element that is used to calculate the required size and strength of the element. The design length is typically based on the span of the element, which is the distance between the points of support, and it may also take into account the expected loads on the element and the location of the element in the structure. The design length is used in structural analysis and design to ensure that the element is strong enough to support the loads it will be subjected to during its service life. It is an important factor to consider in the design of a structure because it can affect the overall strength and stability of the structure.

How to Calculate Maximum Deflection of Corroded Plate Thickness?

Maximum Deflection of Corroded Plate Thickness calculator uses Deflection = (Constant for Maximum Deflection*Hydrostatic Pressure*Longer Side of the Tank^(4))/(Modulus of Elasticity Jacketed Reaction Vessel*(Plate Thickness-Corrosion Allowance)^(3)) to calculate the Deflection, Maximum Deflection of Corroded Plate Thickness is defined as the amount by which the plate is deformed or bent under a given load. The maximum deflection of a plate can be affected by several factors, including the thickness of the plate, the material properties of the plate, the load applied to the plate, and the span of the plate. Deflection is denoted by δs symbol.

How to calculate Maximum Deflection of Corroded Plate Thickness using this online calculator? To use this online calculator for Maximum Deflection of Corroded Plate Thickness, enter Constant for Maximum Deflection (α), Hydrostatic Pressure (phydrostatic), Longer Side of the Tank (l), Modulus of Elasticity Jacketed Reaction Vessel (E), Plate Thickness (pt) & Corrosion Allowance (c) and hit the calculate button. Here is how the Maximum Deflection of Corroded Plate Thickness calculation can be explained with given input values -> 4083.365 = (3*80000*1.2^(4))/(170000000000*(0.1-0.0105)^(3)).

FAQ

What is Maximum Deflection of Corroded Plate Thickness?
Maximum Deflection of Corroded Plate Thickness is defined as the amount by which the plate is deformed or bent under a given load. The maximum deflection of a plate can be affected by several factors, including the thickness of the plate, the material properties of the plate, the load applied to the plate, and the span of the plate and is represented as δs = (α*phydrostatic*l^(4))/(E*(pt-c)^(3)) or Deflection = (Constant for Maximum Deflection*Hydrostatic Pressure*Longer Side of the Tank^(4))/(Modulus of Elasticity Jacketed Reaction Vessel*(Plate Thickness-Corrosion Allowance)^(3)). Constant for Maximum Deflection is a number that has a fixed value in a given situation or universally or that is characteristic of without stiffeners, Hydrostatic pressure refers to the pressure that any fluid in a confined space exerts. If fluid is in a container, there will be some pressure on the wall of that container, Longer Side of the Tank is the dimension of the tank that is measured along its longest side. The length of a tank is usually one of the key dimensions, Modulus of Elasticity Jacketed Reaction Vessel refers to the measure of the vessel's ability to deform elastically under an applied load, Plate Thickness is the distance through the bearing plate & Corrosion allowance is defined as an extra thickness normally added to carbon and low alloy steel to mitigate the CO2 corrosion rate.
How to calculate Maximum Deflection of Corroded Plate Thickness?
Maximum Deflection of Corroded Plate Thickness is defined as the amount by which the plate is deformed or bent under a given load. The maximum deflection of a plate can be affected by several factors, including the thickness of the plate, the material properties of the plate, the load applied to the plate, and the span of the plate is calculated using Deflection = (Constant for Maximum Deflection*Hydrostatic Pressure*Longer Side of the Tank^(4))/(Modulus of Elasticity Jacketed Reaction Vessel*(Plate Thickness-Corrosion Allowance)^(3)). To calculate Maximum Deflection of Corroded Plate Thickness, you need Constant for Maximum Deflection (α), Hydrostatic Pressure (phydrostatic), Longer Side of the Tank (l), Modulus of Elasticity Jacketed Reaction Vessel (E), Plate Thickness (pt) & Corrosion Allowance (c). With our tool, you need to enter the respective value for Constant for Maximum Deflection, Hydrostatic Pressure, Longer Side of the Tank, Modulus of Elasticity Jacketed Reaction Vessel, Plate Thickness & Corrosion Allowance 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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