Maximum Axial Force Calculator

✖Stress in Bar applied to a bar is the force per unit area applied to the barl. The maximum stress a material can stand before it breaks is called the breaking stress or ultimate tensile stress.ⓘ Stress in Bar [σ]			+10% -10%
✖Area of Cross-Section is the enclosed surface area, product of length and breadth.ⓘ Area of Cross-Section [A]			+10% -10%

✖Maximum Axial Force is the product of maximum stress in the direction of force and area of cross-section.ⓘ Maximum Axial Force [P_axial]

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Formula

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Maximum Axial Force

Formula

`"P"_{"axial"} = "σ"*"A"`

Example

`"0.0768kN"="0.012MPa"*"6400mm²"`

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Maximum Axial Force Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Axial Force = Stress in Bar*Area of Cross-Section
P_axial = σ*A
This formula uses 3 Variables

Variables Used

Maximum Axial Force - (Measured in Newton) - Maximum Axial Force is the product of maximum stress in the direction of force and area of cross-section.
Stress in Bar - (Measured in Pascal) - Stress in Bar applied to a bar is the force per unit area applied to the barl. The maximum stress a material can stand before it breaks is called the breaking stress or ultimate tensile stress.
Area of Cross-Section - (Measured in Square Meter) - Area of Cross-Section is the enclosed surface area, product of length and breadth.

STEP 1: Convert Input(s) to Base Unit

Stress in Bar: 0.012 Megapascal --> 12000 Pascal (Check conversion here)
Area of Cross-Section: 6400 Square Millimeter --> 0.0064 Square Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_axial = σ*A --> 12000*0.0064

Evaluating ... ...

P_axial = 76.8

STEP 3: Convert Result to Output's Unit

76.8 Newton -->0.0768 Kilonewton (Check conversion here)

FINAL ANSWER

0.0768 Kilonewton <-- Maximum Axial Force

(Calculation completed in 00.004 seconds)

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Created by Chilvera Bhanu Teja

Institute of Aeronautical Engineering (IARE), Hyderabad

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National Institute Of Technology (NIT), Hamirpur

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< 8 Principal Stresses Calculators

Major Principal Stress if Member is Subjected to Two Perpendicular Direct Stress and Shear Stress

Go Major Principal Stress = (Stress acting along x-direction+Stress acting along y-direction)/2+sqrt(((Stress acting along x-direction-Stress acting along y-direction)/2)^2+Shear Stress^2)

Minor Principal Stress if Member is Subjected to Two Perpendicular Direct Stress and Shear Stress

Go Minor Principal Stress = (Stress acting along x-direction+Stress acting along y-direction)/2-sqrt(((Stress acting along x-direction-Stress acting along y-direction)/2)^2+Shear Stress^2)

Resultant Stress on Oblique Section given Stress in Perpendicular Directions

Go Resultant Stress = sqrt(Normal Stress^2+Shear Stress^2)

Angle of Obliquity

Go Angle of Obliquity = atan(Shear Stress/Normal Stress)

Safe Stress given Safe Value of Axial Pull

Go Stress in Bar = Safe Value of Axial Pull/Area of Cross-Section

Safe Value of Axial Pull

Go Safe Value of Axial Pull = Safe Stress*Area of Cross-Section

Stress along Maximum Axial Force

Go Stress in Bar = Maximum Axial Force/Area of Cross-Section

Maximum Axial Force

Go Maximum Axial Force = Stress in Bar*Area of Cross-Section

Maximum Axial Force Formula

Maximum Axial Force = Stress in Bar*Area of Cross-Section
P_axial = σ*A

What is axial force?

The push or pull of an object is considered a force, When the line of action of the force is acting along the axis of a member or object then the force is called axial force.

How to Calculate Maximum Axial Force?

Maximum Axial Force calculator uses Maximum Axial Force = Stress in Bar*Area of Cross-Section to calculate the Maximum Axial Force, The Maximum axial force formula is defined as the product of stress in the direction of force and area of cross-section. Maximum Axial Force is denoted by P_axial symbol.

How to calculate Maximum Axial Force using this online calculator? To use this online calculator for Maximum Axial Force, enter Stress in Bar (σ) & Area of Cross-Section (A) and hit the calculate button. Here is how the Maximum Axial Force calculation can be explained with given input values -> 7.7E-5 = 12000*0.0064.

FAQ

What is Maximum Axial Force?

The Maximum axial force formula is defined as the product of stress in the direction of force and area of cross-section and is represented as P_axial = σ*A or Maximum Axial Force = Stress in Bar*Area of Cross-Section. Stress in Bar applied to a bar is the force per unit area applied to the barl. The maximum stress a material can stand before it breaks is called the breaking stress or ultimate tensile stress & Area of Cross-Section is the enclosed surface area, product of length and breadth.

How to calculate Maximum Axial Force?

The Maximum axial force formula is defined as the product of stress in the direction of force and area of cross-section is calculated using Maximum Axial Force = Stress in Bar*Area of Cross-Section. To calculate Maximum Axial Force, you need Stress in Bar (σ) & Area of Cross-Section (A). With our tool, you need to enter the respective value for Stress in Bar & Area of Cross-Section 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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