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Force required to produce Permanent Deformation of Balls of Ball Bearing Formula

GoForce required to produce Permanent Deformation of Balls of Ball Bearing given Static Load Formula

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Force on Ball Bearing is any interaction that, when unopposed, will change the motion of the bearing. It is the force required to cause deformation in the bearing. Check FAQs

F = k \cdot {d b}^{2}

F - Force on Ball Bearing?k - K Factor?d_b - Ball Diameter of a Bearing?

Force required to produce Permanent Deformation of Balls of Ball Bearing Example

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Here is how the Force required to produce Permanent Deformation of Balls of Ball Bearing equation looks like with Values.

Here is how the Force required to produce Permanent Deformation of Balls of Ball Bearing equation looks like with Units.

Here is how the Force required to produce Permanent Deformation of Balls of Ball Bearing equation looks like.

14994 = 850 \cdot {4.2}^{2}

14994N = 850N/mm² \cdot {4.2mm}^{2}

14994 = 850 \cdot {4.2}^{2}

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Force required to produce Permanent Deformation of Balls of Ball Bearing Solution

Follow our step by step solution on how to calculate Force required to produce Permanent Deformation of Balls of Ball Bearing?

FIRST Step Consider the formula

F = k \cdot {d b}^{2}

Next Step Substitute values of Variables

∴

F = 850N/mm² \cdot {4.2mm}^{2}

Next Step Convert Units

∴

F = 8.5E+8Pa \cdot {0.0042m}^{2}

Next Step Prepare to Evaluate

∴

F = 8.5E+8 \cdot {0.0042}^{2}

LAST Step Evaluate

∴

F = 14994N

Force required to produce Permanent Deformation of Balls of Ball Bearing Formula Elements

Variables

Force on Ball Bearing

Force on Ball Bearing is any interaction that, when unopposed, will change the motion of the bearing. It is the force required to cause deformation in the bearing.

Symbol: F

Measurement: ForceUnit: N

Note: Value should be greater than 0.

Formulas to find Force on Ball Bearing

K Factor

K Factor is the constant that depends upon the radii of curvature at the point of contact and on the moduli of elasticity of materials.

Symbol: k

Measurement: StressUnit: N/mm²

Note: Value should be greater than 0.

Formulas to find K Factor

Ball Diameter of a Bearing

Ball diameter of a bearing refers to the diameter of the ball of a ball bearing.

Symbol: d_b

Measurement: LengthUnit: mm

Note: Value should be greater than 0.

Formulas to find Ball Diameter of a Bearing

Other Formulas to find Force on Ball Bearing

Go Force required to produce Permanent Deformation of Balls of Ball Bearing given Static Load

F = 5 \cdot \frac{C o}{z}

Other formulas in Stribeck’s Equation category

Go Static Load on Ball of Ball Bearing from Stribeck's Equation

C o = k \cdot {d b}^{2} \cdot \frac{z}{5}

Go K Factor for Ball Bearing from Stribeck's Equation

k = 5 \cdot \frac{C o}{{d b}^{2} \cdot z}

Go Diameter of Ball of Bearing from Stribeck's Equation

d b = \sqrt{\frac{5 \cdot C o}{k \cdot z}}

Go Number of Balls of Ball Bearing from Stribeck's Equation

z = 5 \cdot \frac{C o}{k \cdot {d b}^{2}}

How to Evaluate Force required to produce Permanent Deformation of Balls of Ball Bearing?

Force required to produce Permanent Deformation of Balls of Ball Bearing evaluator uses Force on Ball Bearing = K Factor*Ball Diameter of a Bearing^2 to evaluate the Force on Ball Bearing, Force required to produce Permanent Deformation of Balls of Ball Bearing formula is defined as the amount of force that is required to produce a permanent deformation in the given balls. Force on Ball Bearing is denoted by F symbol.

How to evaluate Force required to produce Permanent Deformation of Balls of Ball Bearing using this online evaluator? To use this online evaluator for Force required to produce Permanent Deformation of Balls of Ball Bearing, enter K Factor (k) & Ball Diameter of a Bearing (d_b) and hit the calculate button.

FAQs on Force required to produce Permanent Deformation of Balls of Ball Bearing

What is the formula to find Force required to produce Permanent Deformation of Balls of Ball Bearing?

The formula of Force required to produce Permanent Deformation of Balls of Ball Bearing is expressed as Force on Ball Bearing = K Factor*Ball Diameter of a Bearing^2. Here is an example- 14994 = 850000000*0.0042^2.

How to calculate Force required to produce Permanent Deformation of Balls of Ball Bearing?

With K Factor (k) & Ball Diameter of a Bearing (d_b) we can find Force required to produce Permanent Deformation of Balls of Ball Bearing using the formula - Force on Ball Bearing = K Factor*Ball Diameter of a Bearing^2.

What are the other ways to Calculate Force on Ball Bearing?

Here are the different ways to Calculate Force on Ball Bearing-

Force on Ball Bearing=5*Static Load on Bearing/Number of Balls in Bearing

Can the Force required to produce Permanent Deformation of Balls of Ball Bearing be negative?

No, the Force required to produce Permanent Deformation of Balls of Ball Bearing, measured in Force cannot be negative.

Which unit is used to measure Force required to produce Permanent Deformation of Balls of Ball Bearing?

Force required to produce Permanent Deformation of Balls of Ball Bearing is usually measured using the Newton[N] for Force. Exanewton[N], Meganewton[N], Kilonewton[N] are the few other units in which Force required to produce Permanent Deformation of Balls of Ball Bearing can be measured.

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Force required to produce Permanent Deformation of Balls of Ball Bearing Formula

​GoForce required to produce Permanent Deformation of Balls of Ball Bearing given Static Load Formula

Force required to produce Permanent Deformation of Balls of Ball Bearing Example

Force required to produce Permanent Deformation of Balls of Ball Bearing Solution

Force required to produce Permanent Deformation of Balls of Ball Bearing Formula Elements

Other Formulas to find Force on Ball Bearing

Other formulas in Stribeck’s Equation category

How to Evaluate Force required to produce Permanent Deformation of Balls of Ball Bearing?

FAQs on Force required to produce Permanent Deformation of Balls of Ball Bearing

Variable Name

GoForce required to produce Permanent Deformation of Balls of Ball Bearing given Static Load Formula