Width of Each Leaf given Bending Stress in Plate Solution

STEP 0: Pre-Calculation Summary
Formula Used
Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring/(Number of Graduated Length Leaves*Bending Stress in graduated leaf*Thickness of Leaf^2)
b = 6*Pg*L/(ng*σbg*t^2)
This formula uses 6 Variables
Variables Used
Width of Leaf - (Measured in Meter) - Width of leaf refers to the horizontal dimension of an individual layer in a leaf spring or structural element.
Force Taken by Graduated Length Leaves - (Measured in Newton) - Force taken by graduated length leaves involves the varying load distribution due to differences in thickness or material properties along the length.
Length of Cantilever of Leaf Spring - (Measured in Meter) - Length of cantilever of leaf spring refers to the distance from the fixed support to the free end where the load is applied.
Number of Graduated Length Leaves - Number of graduated length leaves refers to the count of layers in a leaf spring that vary in thickness or length.
Bending Stress in graduated leaf - (Measured in Pascal) - Bending stress in graduated leaf varies across its thickness, with stress distribution changing due to different material properties or thickness variations, affecting how the leaf resists bending.
Thickness of Leaf - (Measured in Meter) - Thickness of leaf refers to the dimension of an individual layer in a leaf spring or structural element.
STEP 1: Convert Input(s) to Base Unit
Force Taken by Graduated Length Leaves: 28900 Newton --> 28900 Newton No Conversion Required
Length of Cantilever of Leaf Spring: 500 Millimeter --> 0.5 Meter (Check conversion ​here)
Number of Graduated Length Leaves: 15 --> No Conversion Required
Bending Stress in graduated leaf: 371.65 Newton per Square Millimeter --> 371650000 Pascal (Check conversion ​here)
Thickness of Leaf: 12 Millimeter --> 0.012 Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
b = 6*Pg*L/(ngbg*t^2) --> 6*28900*0.5/(15*371650000*0.012^2)
Evaluating ... ...
b = 0.108001853595826
STEP 3: Convert Result to Output's Unit
0.108001853595826 Meter -->108.001853595826 Millimeter (Check conversion ​here)
FINAL ANSWER
108.001853595826 108.0019 Millimeter <-- Width of Leaf
(Calculation completed in 00.020 seconds)

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Created by Kethavath Srinath
Osmania University (OU), Hyderabad
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Vishwakarma Government Engineering College (VGEC), Ahmedabad
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Width of Leaf Calculators

Width of Each Leaf given Deflection at Load Point Graduated Length Leaves
​ LaTeX ​ Go Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring^3/(Modulus of Elasticity of Spring*Number of Graduated Length Leaves*Deflection of graduated leaf at load point*Thickness of Leaf^3)
Width of Each Leaf given Bending Stress on Graduated Length Leaves
​ LaTeX ​ Go Width of Leaf = 12*Force Applied at End of Leaf Spring*Length of Cantilever of Leaf Spring/((3*Number of Full length Leaves+2*Number of Graduated Length Leaves)*Bending Stress in graduated leaf*Thickness of Leaf^2)
Width of Each Leaf given Bending Stress in Plate
​ LaTeX ​ Go Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring/(Number of Graduated Length Leaves*Bending Stress in graduated leaf*Thickness of Leaf^2)
Width of Each Leaf given Bending Stress in Plate Extra Full Length
​ LaTeX ​ Go Width of Leaf = 6*Force Taken by Full Length Leaves*Length of Cantilever of Leaf Spring/(Number of Full length Leaves*Thickness of Leaf^2*Bending Stress in full leaf)

Width of Each Leaf given Bending Stress in Plate Formula

​LaTeX ​Go
Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring/(Number of Graduated Length Leaves*Bending Stress in graduated leaf*Thickness of Leaf^2)
b = 6*Pg*L/(ng*σbg*t^2)

Define Bending Stress?

Bending stress is the normal stress that an object encounters when it is subjected to a large load at a particular point that causes the object to bend and become fatigued. Bending stress occurs when operating industrial equipment and in concrete and metallic structures when they are subjected to a tensile load.

How to Calculate Width of Each Leaf given Bending Stress in Plate?

Width of Each Leaf given Bending Stress in Plate calculator uses Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring/(Number of Graduated Length Leaves*Bending Stress in graduated leaf*Thickness of Leaf^2) to calculate the Width of Leaf, Width of Each Leaf given Bending Stress in Plate formula is defined as a measure of the width of each leaf in a plate, which is influenced by the bending stress, load, and geometric properties of the plate, providing a critical design parameter in mechanical engineering and structural analysis. Width of Leaf is denoted by b symbol.

How to calculate Width of Each Leaf given Bending Stress in Plate using this online calculator? To use this online calculator for Width of Each Leaf given Bending Stress in Plate, enter Force Taken by Graduated Length Leaves (Pg), Length of Cantilever of Leaf Spring (L), Number of Graduated Length Leaves (ng), Bending Stress in graduated leaf bg) & Thickness of Leaf (t) and hit the calculate button. Here is how the Width of Each Leaf given Bending Stress in Plate calculation can be explained with given input values -> 107998.9 = 6*28900*0.5/(15*371650000*0.012^2).

FAQ

What is Width of Each Leaf given Bending Stress in Plate?
Width of Each Leaf given Bending Stress in Plate formula is defined as a measure of the width of each leaf in a plate, which is influenced by the bending stress, load, and geometric properties of the plate, providing a critical design parameter in mechanical engineering and structural analysis and is represented as b = 6*Pg*L/(ngbg*t^2) or Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring/(Number of Graduated Length Leaves*Bending Stress in graduated leaf*Thickness of Leaf^2). Force taken by graduated length leaves involves the varying load distribution due to differences in thickness or material properties along the length, Length of cantilever of leaf spring refers to the distance from the fixed support to the free end where the load is applied, Number of graduated length leaves refers to the count of layers in a leaf spring that vary in thickness or length, Bending stress in graduated leaf varies across its thickness, with stress distribution changing due to different material properties or thickness variations, affecting how the leaf resists bending & Thickness of leaf refers to the dimension of an individual layer in a leaf spring or structural element.
How to calculate Width of Each Leaf given Bending Stress in Plate?
Width of Each Leaf given Bending Stress in Plate formula is defined as a measure of the width of each leaf in a plate, which is influenced by the bending stress, load, and geometric properties of the plate, providing a critical design parameter in mechanical engineering and structural analysis is calculated using Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring/(Number of Graduated Length Leaves*Bending Stress in graduated leaf*Thickness of Leaf^2). To calculate Width of Each Leaf given Bending Stress in Plate, you need Force Taken by Graduated Length Leaves (Pg), Length of Cantilever of Leaf Spring (L), Number of Graduated Length Leaves (ng), Bending Stress in graduated leaf bg) & Thickness of Leaf (t). With our tool, you need to enter the respective value for Force Taken by Graduated Length Leaves, Length of Cantilever of Leaf Spring, Number of Graduated Length Leaves, Bending Stress in graduated leaf & Thickness of Leaf and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Width of Leaf?
In this formula, Width of Leaf uses Force Taken by Graduated Length Leaves, Length of Cantilever of Leaf Spring, Number of Graduated Length Leaves, Bending Stress in graduated leaf & Thickness of Leaf. We can use 3 other way(s) to calculate the same, which is/are as follows -
  • Width of Leaf = 6*Force Taken by Graduated Length Leaves*Length of Cantilever of Leaf Spring^3/(Modulus of Elasticity of Spring*Number of Graduated Length Leaves*Deflection of graduated leaf at load point*Thickness of Leaf^3)
  • Width of Leaf = 6*Force Taken by Full Length Leaves*Length of Cantilever of Leaf Spring/(Number of Full length Leaves*Thickness of Leaf^2*Bending Stress in full leaf)
  • Width of Leaf = 12*Force Applied at End of Leaf Spring*Length of Cantilever of Leaf Spring/((3*Number of Full length Leaves+2*Number of Graduated Length Leaves)*Bending Stress in graduated leaf*Thickness of Leaf^2)
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