Distance of inner fiber from neutral axis of curved beam given bending stress at fibre Solution

STEP 0: Pre-Calculation Summary
Formula Used
Distance of Inner Fibre from Neutral Axis = (Bending Stress at Inner Fibre*(Cross Sectional Area of Curved Beam)*Eccentricity Between Centroidal and Neutral Axis*(Radius of Inner Fibre))/(Bending Moment in Curved Beam)
hi = (σbi*(A)*e*(Ri))/(Mb)
This formula uses 6 Variables
Variables Used
Distance of Inner Fibre from Neutral Axis - (Measured in Meter) - Distance of Inner Fibre from Neutral Axis is the point where the fibers of a material undergoing bending are stretched maximum.
Bending Stress at Inner Fibre - (Measured in Pascal) - Bending Stress at Inner Fibre is the amount of bending moment at the inner fiber of a curved structural element.
Cross Sectional Area of Curved Beam - (Measured in Square Meter) - Cross sectional area of curved beam is the area of a two-dimensional section that is obtained when a beam is sliced perpendicular to some specified axis at a point.
Eccentricity Between Centroidal and Neutral Axis - (Measured in Meter) - Eccentricity Between Centroidal and Neutral Axis is the distance between the centroidal and the neutral axis of a curved structural element.
Radius of Inner Fibre - (Measured in Meter) - Radius of Inner Fibre is the radius of the inner fiber of a curved structural element.
Bending Moment in Curved Beam - (Measured in Newton Meter) - Bending moment in curved beam is the reaction induced in a structural element when an external force or moment is applied to the element, causing the element to bend.
STEP 1: Convert Input(s) to Base Unit
Bending Stress at Inner Fibre: 293.1548 Newton per Square Millimeter --> 293154800 Pascal (Check conversion ​here)
Cross Sectional Area of Curved Beam: 240 Square Millimeter --> 0.00024 Square Meter (Check conversion ​here)
Eccentricity Between Centroidal and Neutral Axis: 2 Millimeter --> 0.002 Meter (Check conversion ​here)
Radius of Inner Fibre: 70 Millimeter --> 0.07 Meter (Check conversion ​here)
Bending Moment in Curved Beam: 985000 Newton Millimeter --> 985 Newton Meter (Check conversion ​here)
STEP 2: Evaluate Formula
Substituting Input Values in Formula
hi = (σbi*(A)*e*(Ri))/(Mb) --> (293154800*(0.00024)*0.002*(0.07))/(985)
Evaluating ... ...
hi = 0.0100000012994924
STEP 3: Convert Result to Output's Unit
0.0100000012994924 Meter -->10.0000012994924 Millimeter (Check conversion ​here)
FINAL ANSWER
10.0000012994924 10 Millimeter <-- Distance of Inner Fibre from Neutral Axis
(Calculation completed in 00.020 seconds)

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Design of Curved Beams Calculators

Bending stress in fibre of curved beam given eccentricity
​ Go Bending Stress = ((Bending Moment in Curved Beam*Distance from Neutral Axis of Curved Beam)/(Cross Sectional Area of Curved Beam*(Eccentricity Between Centroidal and Neutral Axis)*(Radius of Neutral Axis-Distance from Neutral Axis of Curved Beam)))
Bending stress in fiber of curved beam
​ Go Bending Stress = (Bending Moment in Curved Beam*Distance from Neutral Axis of Curved Beam)/(Cross Sectional Area of Curved Beam*Eccentricity Between Centroidal and Neutral Axis*(Radius of Neutral Axis-Distance from Neutral Axis of Curved Beam))
Eccentricity between centroidal and neutral axis of curved beam given radius of both axis
​ LaTeX ​ Go Eccentricity Between Centroidal and Neutral Axis = Radius of Centroidal Axis-Radius of Neutral Axis
Eccentricity between central and neutral axis of curved beam
​ LaTeX ​ Go Eccentricity Between Centroidal and Neutral Axis = Radius of Centroidal Axis-Radius of Neutral Axis

Distance of inner fiber from neutral axis of curved beam given bending stress at fibre Formula

​LaTeX ​Go
Distance of Inner Fibre from Neutral Axis = (Bending Stress at Inner Fibre*(Cross Sectional Area of Curved Beam)*Eccentricity Between Centroidal and Neutral Axis*(Radius of Inner Fibre))/(Bending Moment in Curved Beam)
hi = (σbi*(A)*e*(Ri))/(Mb)

What is fracture point?

The Fracture Point can be defined as the breaking limit of material beyond which if further stress is applied it will rupture and break apart. It is basically a material strength gauging parameter.

How to Calculate Distance of inner fiber from neutral axis of curved beam given bending stress at fibre?

Distance of inner fiber from neutral axis of curved beam given bending stress at fibre calculator uses Distance of Inner Fibre from Neutral Axis = (Bending Stress at Inner Fibre*(Cross Sectional Area of Curved Beam)*Eccentricity Between Centroidal and Neutral Axis*(Radius of Inner Fibre))/(Bending Moment in Curved Beam) to calculate the Distance of Inner Fibre from Neutral Axis, Distance of inner fiber from neutral axis of curved beam given bending stress at fibre is the distance between the innermost fiber and the neutral axis of the curved beam. Distance of Inner Fibre from Neutral Axis is denoted by hi symbol.

How to calculate Distance of inner fiber from neutral axis of curved beam given bending stress at fibre using this online calculator? To use this online calculator for Distance of inner fiber from neutral axis of curved beam given bending stress at fibre, enter Bending Stress at Inner Fibre bi), Cross Sectional Area of Curved Beam (A), Eccentricity Between Centroidal and Neutral Axis (e), Radius of Inner Fibre (Ri) & Bending Moment in Curved Beam (Mb) and hit the calculate button. Here is how the Distance of inner fiber from neutral axis of curved beam given bending stress at fibre calculation can be explained with given input values -> 2677.766 = (293154800*(0.00024)*0.002*(0.07))/(985).

FAQ

What is Distance of inner fiber from neutral axis of curved beam given bending stress at fibre?
Distance of inner fiber from neutral axis of curved beam given bending stress at fibre is the distance between the innermost fiber and the neutral axis of the curved beam and is represented as hi = (σbi*(A)*e*(Ri))/(Mb) or Distance of Inner Fibre from Neutral Axis = (Bending Stress at Inner Fibre*(Cross Sectional Area of Curved Beam)*Eccentricity Between Centroidal and Neutral Axis*(Radius of Inner Fibre))/(Bending Moment in Curved Beam). Bending Stress at Inner Fibre is the amount of bending moment at the inner fiber of a curved structural element, Cross sectional area of curved beam is the area of a two-dimensional section that is obtained when a beam is sliced perpendicular to some specified axis at a point, Eccentricity Between Centroidal and Neutral Axis is the distance between the centroidal and the neutral axis of a curved structural element, Radius of Inner Fibre is the radius of the inner fiber of a curved structural element & Bending moment in curved beam is the reaction induced in a structural element when an external force or moment is applied to the element, causing the element to bend.
How to calculate Distance of inner fiber from neutral axis of curved beam given bending stress at fibre?
Distance of inner fiber from neutral axis of curved beam given bending stress at fibre is the distance between the innermost fiber and the neutral axis of the curved beam is calculated using Distance of Inner Fibre from Neutral Axis = (Bending Stress at Inner Fibre*(Cross Sectional Area of Curved Beam)*Eccentricity Between Centroidal and Neutral Axis*(Radius of Inner Fibre))/(Bending Moment in Curved Beam). To calculate Distance of inner fiber from neutral axis of curved beam given bending stress at fibre, you need Bending Stress at Inner Fibre bi), Cross Sectional Area of Curved Beam (A), Eccentricity Between Centroidal and Neutral Axis (e), Radius of Inner Fibre (Ri) & Bending Moment in Curved Beam (Mb). With our tool, you need to enter the respective value for Bending Stress at Inner Fibre, Cross Sectional Area of Curved Beam, Eccentricity Between Centroidal and Neutral Axis, Radius of Inner Fibre & Bending Moment in Curved Beam 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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