Maximum Tangential Force on Gear given Service factor Calculator

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Design of Gears

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Design of Coupling

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Design of Spur Gears

Design of Bevel Gears

Design of Helical Gears

Design of Worm Gears

✖Service Factor for Spur Gear is defined as the ratio of the torque capacity and the rated torque value.ⓘ Service Factor for Spur Gear [K_s]			+10% -10%
✖Tangential Force on Spur Gear is the force that acts on a spur gear in the direction of a tangent to the curved path of the gear circumference..ⓘ Tangential Force on Spur Gear [P_t]			+10% -10%

✖Maximum Tangential Force on Spur Gear is defined as the maximum amount of force acting onto the circumference of the gear in the tangential direction.ⓘ Maximum Tangential Force on Gear given Service factor [P_tmax]

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Formula

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Maximum Tangential Force on Gear given Service factor

Formula

`"P"_{"tmax"} = "K"_{"s"}*"P"_{"t"}`

Example

`"1142.4N"="1.2"*"952N"`

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Download Design of Spur Gears Formulas PDF

Maximum Tangential Force on Gear given Service factor Solution

STEP 0: Pre-Calculation Summary

Formula Used

Maximum Tangential Force on Spur Gear = Service Factor for Spur Gear*Tangential Force on Spur Gear
P_tmax = K_s*P_t
This formula uses 3 Variables

Variables Used

Maximum Tangential Force on Spur Gear - (Measured in Newton) - Maximum Tangential Force on Spur Gear is defined as the maximum amount of force acting onto the circumference of the gear in the tangential direction.
Service Factor for Spur Gear - Service Factor for Spur Gear is defined as the ratio of the torque capacity and the rated torque value.
Tangential Force on Spur Gear - (Measured in Newton) - Tangential Force on Spur Gear is the force that acts on a spur gear in the direction of a tangent to the curved path of the gear circumference..

STEP 1: Convert Input(s) to Base Unit

Service Factor for Spur Gear: 1.2 --> No Conversion Required
Tangential Force on Spur Gear: 952 Newton --> 952 Newton No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_tmax = K_s*P_t --> 1.2*952

Evaluating ... ...

P_tmax = 1142.4

STEP 3: Convert Result to Output's Unit

1142.4 Newton --> No Conversion Required

FINAL ANSWER

1142.4 Newton <-- Maximum Tangential Force on Spur Gear

(Calculation completed in 00.004 seconds)

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Home » Physics » Design of Machine Elements » Design of Gears » Design of Spur Gears » Maximum Tangential Force on Gear given Service factor

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Created by Vaibhav Malani

National Institute of Technology (NIT), Tiruchirapalli

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Verified by Sagar S Kulkarni

Dayananda Sagar College of Engineering (DSCE), Bengaluru

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< 25 Design of Spur Gears Calculators

Center to Center Distance between Spur Gears

Go Distance between Spur Gear Centres = Module of Spur Gear*((Number of Teeth on Pinion+Number of Teeth on Spur Gear)/2)

Circular Pitch of Gear given Diameter and Number of Teeth

Go Circular Pitch of Spur Gear = pi*Pitch Circle Diameter of Spur Gear/Number of Teeth on Spur Gear

Resultant Force on Gear

Go Resultant Force on Spur Gear = Tangential Force on Spur Gear/cos(Pressure Angle of Spur Gear)

Radial Force of Gear given Tangential Force and Pressure Angle

Go Radial Force on Spur Gear = Tangential Force on Spur Gear*tan(Pressure Angle of Spur Gear)

Tangential Force on Gear given Radial Force and Pressure Angle

Go Tangential Force on Spur Gear = Radial Force on Spur Gear*cot(Pressure Angle of Spur Gear)

Pitch Circle Diameter of holes of Medium Size Gear

Go Pitch Circle Diameter of Holes in Gear = (Inner Diameter of Rim of Spur Gear+Outer Diameter of Spur Gear Hub)/2

Diameter of Holes in Gear Web of Medium Size Diameter

Go Diameter of Holes in Spur Gear Web = (Inner Diameter of Rim of Spur Gear-Outer Diameter of Spur Gear Hub)/4

Inner Diameter of Rim of Large Size Gear

Go Inner Diameter of Rim of Spur Gear = Dedendum Circle Diameter of Spur Gear-2*Thickness of Spur Gear Rim

Torque Transmitted by Gear given Tangential Force and Pitch Circle Diameter

Go Torque transmitted by spur gear = Tangential Force on Spur Gear*Pitch Circle Diameter of Spur Gear/2

Addendum Circle Diameter of Medium Size Gear Diameter given Addendum

Go Addendum Circle Diameter of Spur Gear = Pitch Circle Diameter of Spur Gear+(2*Addendum of spur gear)

Tangential Force on Gear given Torque and Pitch Circle Diameter

Go Tangential Force on Spur Gear = 2*Torque transmitted by spur gear/Pitch Circle Diameter of Spur Gear

Dedendum Circle Diameter of Medium Size Gear given Dedundum

Go Dedendum Circle Diameter of Spur Gear = Pitch Circle Diameter of Spur Gear-(2*Dedundum of Spur Gear)

Diametral Pitch of Gear given Number of teeth and Pitch Circle Diameter

Go Diametral Pitch of Spur Gear = Number of Teeth on Spur Gear/Pitch Circle Diameter of Spur Gear

Dedendum Circle Diameter of Large Size Gear

Go Dedendum Circle Diameter of Spur Gear = Module of Spur Gear*(Number of Teeth on Spur Gear-2.5)

Addendum Circle Diameter of Large Size Gear

Go Addendum Circle Diameter of Spur Gear = Module of Spur Gear*(Number of Teeth on Spur Gear+2)

Pitch Circle Diameter of Gear given Module and Number of Teeth

Go Pitch Circle Diameter of Spur Gear = Module of Spur Gear*Number of Teeth on Spur Gear

Module of Gear given Pitch Circle Diameter

Go Module of Spur Gear = Pitch Circle Diameter of Spur Gear/Number of Teeth on Spur Gear

Maximum Torque of Gear given Service Factor

Go Maximum Torque on Spur Gear = Service Factor for Spur Gear*Rated Torque of Spur Gear

Service Factor for Gear given Torque

Go Service Factor for Spur Gear = Maximum Torque on Spur Gear/Rated Torque of Spur Gear

Gear Ratio given Number of Teeth

Go Gear Ratio of Spur Gear = Number of Teeth on Spur Gear/Number of Teeth on Pinion

Gear Ratio given Speed

Go Gear Ratio of Spur Gear = Speed of Spur Pinion/Speed of Spur Gear

Diametral Pitch of Gear given Circular Pitch

Go Diametral Pitch of Spur Gear = pi/Circular Pitch of Spur Gear

Outer Diameter of Hub of Large Size Gear

Go Outer Diameter of Spur Gear Hub = 2*Diameter of Spur Gear Shaft

Thickness of Rim of Large Size Gear

Go Thickness of Spur Gear Rim = 0.56*Circular Pitch of Spur Gear

Module of Gear given Diametral Pitch

Go Module of Spur Gear = 1/Diametral Pitch of Spur Gear

Maximum Tangential Force on Gear given Service factor Formula

Maximum Tangential Force on Spur Gear = Service Factor for Spur Gear*Tangential Force on Spur Gear
P_tmax = K_s*P_t

What is a gear?

Gears are defined as toothed wheels or multilobed-cams, which transmit power and motion from one shaft to another by means of successive engagement of teeth.

How to Calculate Maximum Tangential Force on Gear given Service factor?

Maximum Tangential Force on Gear given Service factor calculator uses Maximum Tangential Force on Spur Gear = Service Factor for Spur Gear*Tangential Force on Spur Gear to calculate the Maximum Tangential Force on Spur Gear, Maximum Tangential Force on Gear given Service factor is defined as the maximum or the highest amount of tangential force acting onto the gear. The tangential force, is tangent to the operating pitch circle in the transverse plane. Maximum Tangential Force on Spur Gear is denoted by P_tmax symbol.

How to calculate Maximum Tangential Force on Gear given Service factor using this online calculator? To use this online calculator for Maximum Tangential Force on Gear given Service factor, enter Service Factor for Spur Gear (K_s) & Tangential Force on Spur Gear (P_t) and hit the calculate button. Here is how the Maximum Tangential Force on Gear given Service factor calculation can be explained with given input values -> 1142.4 = 1.2*952.

FAQ

What is Maximum Tangential Force on Gear given Service factor?

Maximum Tangential Force on Gear given Service factor is defined as the maximum or the highest amount of tangential force acting onto the gear. The tangential force, is tangent to the operating pitch circle in the transverse plane and is represented as P_tmax = K_s*P_t or Maximum Tangential Force on Spur Gear = Service Factor for Spur Gear*Tangential Force on Spur Gear. Service Factor for Spur Gear is defined as the ratio of the torque capacity and the rated torque value & Tangential Force on Spur Gear is the force that acts on a spur gear in the direction of a tangent to the curved path of the gear circumference.

How to calculate Maximum Tangential Force on Gear given Service factor?

Maximum Tangential Force on Gear given Service factor is defined as the maximum or the highest amount of tangential force acting onto the gear. The tangential force, is tangent to the operating pitch circle in the transverse plane is calculated using Maximum Tangential Force on Spur Gear = Service Factor for Spur Gear*Tangential Force on Spur Gear. To calculate Maximum Tangential Force on Gear given Service factor, you need Service Factor for Spur Gear (K_s) & Tangential Force on Spur Gear (P_t). With our tool, you need to enter the respective value for Service Factor for Spur Gear & Tangential Force on Spur Gear 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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