Radius of Plate to which they are Bent given Central Deflection of Leaf Spring Solution

STEP 0: Pre-Calculation Summary
Formula Used
Radius of Plate = (Span of Spring^2)/(8*Deflection of Centre of Leaf Spring)
R = (l^2)/(8*δ)
This formula uses 3 Variables
Variables Used
Radius of Plate - (Measured in Meter) - The radius of plate is a line segment extending from the center of a circle or sphere to the circumference or bounding surface.
Span of Spring - (Measured in Meter) - Span of spring is basically the expanded length of spring.
Deflection of Centre of Leaf Spring - (Measured in Meter) - Deflection of centre of leaf spring is a numerical measurement of how far apart objects or points are.
STEP 1: Convert Input(s) to Base Unit
Span of Spring: 6 Millimeter --> 0.006 Meter (Check conversion here)
Deflection of Centre of Leaf Spring: 4 Millimeter --> 0.004 Meter (Check conversion here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
R = (l^2)/(8*δ) --> (0.006^2)/(8*0.004)
Evaluating ... ...
R = 0.001125
STEP 3: Convert Result to Output's Unit
0.001125 Meter -->1.125 Millimeter (Check conversion here)
FINAL ANSWER
1.125 Millimeter <-- Radius of Plate
(Calculation completed in 00.004 seconds)

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National Institute Of Technology (NIT), Hamirpur
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17 Torsion of Leaf Spring Calculators

Point Load Acting at Center of Spring given Maximum Bending Stress Developed in Plates
Go Point Load at Center of Spring = (2*Number of Plates*Width of Full Size Bearing Plate*Thickness of Plate^2*Maximum Bending Stress in Plates)/(3*Span of Spring)
Maximum Bending Stress Developed in Plates given Point Load at Center
Go Maximum Bending Stress in Plates = (3*Point Load at Center of Spring*Span of Spring)/(2*Number of Plates*Width of Full Size Bearing Plate*Thickness of Plate^2)
Number of Plates given Maximum Bending Stress Developed in Plates
Go Number of Plates = (3*Point Load at Center of Spring*Span of Spring)/(2*Maximum Bending Stress in Plates*Width of Full Size Bearing Plate*Thickness of Plate^2)
Maximum Bending Stress Developed given Central Deflection of Leaf Spring
Go Maximum Bending Stress in Plates = (4*Modulus of Elasticity Leaf Spring*Thickness of Plate*Deflection of Centre of Leaf Spring)/(Span of Spring^2)
Central Deflection of Leaf Spring for given Modulus of Elasticity
Go Deflection of Centre of Leaf Spring = (Maximum Bending Stress in Plates*Span of Spring^2)/(4*Modulus of Elasticity Leaf Spring*Thickness of Plate)
Modulus of Elasticity given Central Deflection of Leaf Spring
Go Modulus of Elasticity Leaf Spring = (Maximum Bending Stress in Plates*Span of Spring^2)/(4*Deflection of Centre of Leaf Spring*Thickness of Plate)
Number of Plates in Leaf Spring given Total Resisting Moment by n Plates
Go Number of Plates = (6*Bending Moment in Spring)/(Maximum Bending Stress in Plates*Width of Full Size Bearing Plate*Thickness of Plate^2)
Total Resisting Moment by n Plates
Go Total Resisting Moments = (Number of Plates*Maximum Bending Stress in Plates*Width of Full Size Bearing Plate*Thickness of Plate^2)/6
Maximum Bending Stress Developed given Radius of Plate to which they are Bent
Go Maximum Bending Stress in Plates = (Modulus of Elasticity Leaf Spring*Thickness of Plate)/(2*Radius of Plate)
Modulus of Elasticity given Radius of Plate to which they are Bent
Go Modulus of Elasticity Leaf Spring = (2*Maximum Bending Stress in Plates*Radius of Plate)/(Thickness of Plate)
Radius of Plate to which they are Bent
Go Radius of Plate = (Modulus of Elasticity Leaf Spring*Thickness of Plate)/(2*Maximum Bending Stress in Plates)
Point Load at Center of Spring Load given Bending Moment at Center of Leaf Spring
Go Point Load at Center of Spring = (4*Bending Moment in Spring)/(Span of Spring)
Moment of Inertia of each Leaf Spring Plate
Go Moment of Inertia = (Width of Full Size Bearing Plate*Thickness of Plate^3)/12
Radius of Plate to which they are Bent given Central Deflection of Leaf Spring
Go Radius of Plate = (Span of Spring^2)/(8*Deflection of Centre of Leaf Spring)
Central Deflection of Leaf Spring
Go Deflection of Centre of Leaf Spring = (Span of Spring^2)/(8*Radius of Plate)
Total Resisting Moment by n Plates given Bending Moment on each Plate
Go Total Resisting Moments = Number of Plates*Bending Moment in Spring
Load at One End given Bending Moment at Center of Leaf Spring
Go Load at One End = (2*Bending Moment in Spring)/Span of Spring

Radius of Plate to which they are Bent given Central Deflection of Leaf Spring Formula

Radius of Plate = (Span of Spring^2)/(8*Deflection of Centre of Leaf Spring)
R = (l^2)/(8*δ)

What is bending stress in beam?

When a beam is subjected to external loads, shear forces and bending moments develop in the beam. The beam itself must develop internal resistance to resist shear forces and bending moments. The stresses caused by the bending moments are called bending stresses.

How to Calculate Radius of Plate to which they are Bent given Central Deflection of Leaf Spring?

Radius of Plate to which they are Bent given Central Deflection of Leaf Spring calculator uses Radius of Plate = (Span of Spring^2)/(8*Deflection of Centre of Leaf Spring) to calculate the Radius of Plate, The Radius of plate to which they are bent given central deflection of leaf spring formula is defined as a line segment extending from the center of a circle or sphere to the circumference or bounding surface. Radius of Plate is denoted by R symbol.

How to calculate Radius of Plate to which they are Bent given Central Deflection of Leaf Spring using this online calculator? To use this online calculator for Radius of Plate to which they are Bent given Central Deflection of Leaf Spring, enter Span of Spring (l) & Deflection of Centre of Leaf Spring (δ) and hit the calculate button. Here is how the Radius of Plate to which they are Bent given Central Deflection of Leaf Spring calculation can be explained with given input values -> 1125 = (0.006^2)/(8*0.004).

FAQ

What is Radius of Plate to which they are Bent given Central Deflection of Leaf Spring?
The Radius of plate to which they are bent given central deflection of leaf spring formula is defined as a line segment extending from the center of a circle or sphere to the circumference or bounding surface and is represented as R = (l^2)/(8*δ) or Radius of Plate = (Span of Spring^2)/(8*Deflection of Centre of Leaf Spring). Span of spring is basically the expanded length of spring & Deflection of centre of leaf spring is a numerical measurement of how far apart objects or points are.
How to calculate Radius of Plate to which they are Bent given Central Deflection of Leaf Spring?
The Radius of plate to which they are bent given central deflection of leaf spring formula is defined as a line segment extending from the center of a circle or sphere to the circumference or bounding surface is calculated using Radius of Plate = (Span of Spring^2)/(8*Deflection of Centre of Leaf Spring). To calculate Radius of Plate to which they are Bent given Central Deflection of Leaf Spring, you need Span of Spring (l) & Deflection of Centre of Leaf Spring (δ). With our tool, you need to enter the respective value for Span of Spring & Deflection of Centre of Leaf Spring 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 Radius of Plate?
In this formula, Radius of Plate uses Span of Spring & Deflection of Centre of Leaf Spring. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Radius of Plate = (Modulus of Elasticity Leaf Spring*Thickness of Plate)/(2*Maximum Bending Stress in Plates)
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