Bending stress at outer fiber Calculator

Category	Physics ↺
Physics	Machine Design ↺
Machine-Design	Design of Machine Elements ↺
Design-Of-Machine-Elements	Design Against Static Load ↺
Design-Against-Static-Load	Design of curved beams ↺

✖The Bending moment is the reaction induced in a structural element when an external force or moment is applied to the element, causing the element to bend.ⓘ Bending moment [M]			+10% -10%
✖Distance from outer fiber and neutral axis is the distance between the outer fiber and the neutral axisⓘ Distance from outer fiber and neutral axis [ho]			+10% -10%
✖Area of cross section is the enclosed surface area, product of length and breadth. ⓘ Area of cross section [A]			+10% -10%
✖Eccentricity of an ellipse is a non-negative real number that uniquely characterizes its shape.ⓘ Eccentricity [e]			+10% -10%
✖Radius of outer fiber is the radius of the outside surface of the fiberⓘ Radius of outer fiber [Ro]			+10% -10%

✖The Bending Stress is the normal stress that is induced at a point in a body subjected to loads that cause it to bendⓘ Bending stress at outer fiber [𝛔_b]

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Nishan Poojary

Shri Madhwa Vadiraja Institute of Technology and Management (SMVITM), Udupi

Nishan Poojary has created this Calculator and 400+ more calculators!

Vaibhav Malani

National Institute of Technology (NIT), Tiruchirapalli

Vaibhav Malani has verified this Calculator and 100+ more calculators!

< 11 Other formulas that you can solve using the same Inputs

Strain Energy if moment value is given

Strain Energy=(Bending moment*Bending moment*Length)/(2*Elastic Modulus*Moment of Inertia) GO

Strain Energy in Bending

Strain Energy=(Bending moment^2)*Length/(2*Modulus Of Elasticity*Moment of Inertia) GO

Bending Stress

Bending Stress=Bending moment*Distance from the Neutral axis/Moment of Inertia GO

Equivalent Bending Moment

Equivalent Bending Moment=Bending moment+sqrt(Bending moment^(2)+Torque^(2)) GO

Equivalent Torsional Moment

Equivalent Torsion Moment=sqrt(Bending moment^(2)+Torque^(2)) GO

Latus rectum of an ellipse when focal parameter is given

Latus Rectum=Focal parameter of an ellipse*Eccentricity GO

Semi-latus rectum of an ellipse when eccentricity is given

Semi-latus rectum=Semi-major axis*(1-(Eccentricity)^2) GO

Linear eccentricity of an ellipse when eccentricity and semimajor axis are given

Linear Eccentricity=(Eccentricity*Semi-major axis) GO

Linear eccentricity of ellipse when eccentricity and major axis are given

Linear Eccentricity=Eccentricity*Major axis GO

Directrix of an ellipse(a>b)

Directrix=Major axis/Eccentricity GO

Directrix of an ellipse(b>a)

Directrix=Major axis/Eccentricity GO

< 11 Other formulas that calculate the same Output

Bending stress at a fiber

Bending Stress=(Bending moment*Distance from the Neutral axis)/(Area of cross section*(Eccentricity)*(Radius of neutral axis-Distance from neutral axis)) GO

Bending stress due to eccentricity about x-x axis in terms of eccentric load on column

Bending Stress=(Eccentric load on column*Eccentricity of the load about x-x axis*Distance of load point from y axis)/(Moment of Inertia about x-x axis) GO

Bending stress due to eccentricity about y-y axis in terms of eccentric load on column

Bending Stress=(Eccentric load on column*Eccentricity of the load about y-y axis*Distance of load point from y axis)/(Moment of Inertia about y-y axis) GO

Bending stress at inner fiber

Bending Stress=(Bending moment*Distance from inner fiber an neutral axis)/(Area of cross section*Eccentricity*Radius of inner fiber) GO

Bending stress due to eccentricity about x-x axis

Bending Stress=(Moment of load about x-x axis*Distance of load point from x axis)/(Moment of Inertia about x-x axis) GO

Bending stress due to eccentricity about y-y axis

Bending Stress=(Moment of load about y-y axis*Distance of load point from y axis)/(Moment of Inertia about y-y axis) GO

Bending Stress Caused Due to the Bending Moment

Bending Stress=Bending moment*Distance of Point in Weld to Neutral Axis/Moment of Inertia of Weld about Neutral Axis GO

Bending stress in terms of eccentric load and eccentricity

Bending Stress=(6*Eccentric load on column*Eccentricity of the load)/(Depth of column*(Width of column^2)) GO

Bending stress in terms of moment due to load

Bending Stress=(6*Moment due to eccentric load)/(Depth of column*(Width of column^2)) GO

Stress due to bending moment

Bending Stress=(Bending moment*Distance from neutral axis)/Area Moment Of Inertia GO

Bending Stress

Bending Stress=Bending moment*Distance from the Neutral axis/Moment of Inertia GO

Bending stress at outer fiber Formula

Bending Stress=(Bending moment*Distance from outer fiber and neutral axis)/(Area of cross section*Eccentricity*Radius of outer fiber)
𝛔<sub>b</sub>=(M*ho)/(A*e*Ro)

More formulas

Shear Yield Strength By The Maximum Distortion Energy Theory GO

Shear Yield Strength by Maximum Shear Stress Theory GO

eccentricity between central and neutral axis GO

Bending stress at a fiber GO

Bending stress at inner fiber GO

What is 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 Bending stress at outer fiber?

Bending stress at outer fiber calculator uses Bending Stress=(Bending moment*Distance from outer fiber and neutral axis)/(Area of cross section*Eccentricity*Radius of outer fiber) to calculate the Bending Stress, The Bending stress at outer fiber formula is defined by the formula σ = ( Mb * ho) / ( A * e * Ro), where Mb is the bending moment ho is the distance between outer fiber and neutral axis A area of cross section e eccentricity Ro radius of outer fiber . Bending Stress and is denoted by 𝛔_b symbol.

How to calculate Bending stress at outer fiber using this online calculator? To use this online calculator for Bending stress at outer fiber, enter Bending moment (M), Distance from outer fiber and neutral axis (ho), Area of cross section (A), Eccentricity (e) and Radius of outer fiber (Ro) and hit the calculate button. Here is how the Bending stress at outer fiber calculation can be explained with given input values -> 15.625 = (50*15)/(48*0.1*10).

FAQ

What is Bending stress at outer fiber?

The Bending stress at outer fiber formula is defined by the formula σ = ( Mb * ho) / ( A * e * Ro), where Mb is the bending moment ho is the distance between outer fiber and neutral axis A area of cross section e eccentricity Ro radius of outer fiber and is represented as 𝛔_b=(M*ho)/(A*e*Ro) or Bending Stress=(Bending moment*Distance from outer fiber and neutral axis)/(Area of cross section*Eccentricity*Radius of outer fiber). The Bending moment is the reaction induced in a structural element when an external force or moment is applied to the element, causing the element to bend, Distance from outer fiber and neutral axis is the distance between the outer fiber and the neutral axis, Area of cross section is the enclosed surface area, product of length and breadth. , Eccentricity of an ellipse is a non-negative real number that uniquely characterizes its shape and Radius of outer fiber is the radius of the outside surface of the fiber.

How to calculate Bending stress at outer fiber?

The Bending stress at outer fiber formula is defined by the formula σ = ( Mb * ho) / ( A * e * Ro), where Mb is the bending moment ho is the distance between outer fiber and neutral axis A area of cross section e eccentricity Ro radius of outer fiber is calculated using Bending Stress=(Bending moment*Distance from outer fiber and neutral axis)/(Area of cross section*Eccentricity*Radius of outer fiber). To calculate Bending stress at outer fiber, you need Bending moment (M), Distance from outer fiber and neutral axis (ho), Area of cross section (A), Eccentricity (e) and Radius of outer fiber (Ro). With our tool, you need to enter the respective value for Bending moment, Distance from outer fiber and neutral axis, Area of cross section, Eccentricity and Radius of outer fiber 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 Bending Stress?

In this formula, Bending Stress uses Bending moment, Distance from outer fiber and neutral axis, Area of cross section, Eccentricity and Radius of outer fiber. We can use 11 other way(s) to calculate the same, which is/are as follows -

Bending Stress=Bending moment*Distance from the Neutral axis/Moment of Inertia
Bending Stress=(Bending moment*Distance from neutral axis)/Area Moment Of Inertia
Bending Stress=(Bending moment*Distance from the Neutral axis)/(Area of cross section*(Eccentricity)*(Radius of neutral axis-Distance from neutral axis))
Bending Stress=(Bending moment*Distance from inner fiber an neutral axis)/(Area of cross section*Eccentricity*Radius of inner fiber)
Bending Stress=(6*Eccentric load on column*Eccentricity of the load)/(Depth of column*(Width of column^2))
Bending Stress=(6*Moment due to eccentric load)/(Depth of column*(Width of column^2))
Bending Stress=(Moment of load about x-x axis*Distance of load point from x axis)/(Moment of Inertia about x-x axis)
Bending Stress=(Eccentric load on column*Eccentricity of the load about x-x axis*Distance of load point from y axis)/(Moment of Inertia about x-x axis)
Bending Stress=(Moment of load about y-y axis*Distance of load point from y axis)/(Moment of Inertia about y-y axis)
Bending Stress=(Eccentric load on column*Eccentricity of the load about y-y axis*Distance of load point from y axis)/(Moment of Inertia about y-y axis)
Bending Stress=Bending moment*Distance of Point in Weld to Neutral Axis/Moment of Inertia of Weld about Neutral Axis

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