Power transmitted by synchronous belt Calculator

✖Standard capacity of belt is the power capacity of the belt from which the power needs to be transmitted to the other end.ⓘ Standard Capacity of Belt [P_s]			+10% -10%
✖Service correction factor or simply service factor is defined as the ratio of maximum torque to the rated torque.ⓘ Service Correction Factor [C_s]			+10% -10%

✖Power transmitted by belt is the amount of power that is transmitted from the belt of a belt drive to the pulley.ⓘ Power transmitted by synchronous belt [P_t]

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Formula

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Power transmitted by synchronous belt

Formula

`"P"_{"t"} = "P"_{"s"}/"C"_{"s"}`

Example

`"6.446154kW"="8.38kW"/"1.3"`

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Power transmitted by synchronous belt Solution

STEP 0: Pre-Calculation Summary

Formula Used

Power transmitted by belt = Standard Capacity of Belt/Service Correction Factor
P_t = P_s/C_s
This formula uses 3 Variables

Variables Used

Power transmitted by belt - (Measured in Watt) - Power transmitted by belt is the amount of power that is transmitted from the belt of a belt drive to the pulley.
Standard Capacity of Belt - (Measured in Watt) - Standard capacity of belt is the power capacity of the belt from which the power needs to be transmitted to the other end.
Service Correction Factor - Service correction factor or simply service factor is defined as the ratio of maximum torque to the rated torque.

STEP 1: Convert Input(s) to Base Unit

Standard Capacity of Belt: 8.38 Kilowatt --> 8380 Watt (Check conversion here)
Service Correction Factor: 1.3 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

P_t = P_s/C_s --> 8380/1.3

Evaluating ... ...

P_t = 6446.15384615385

STEP 3: Convert Result to Output's Unit

6446.15384615385 Watt -->6.44615384615385 Kilowatt (Check conversion here)

FINAL ANSWER

6.44615384615385 ≈ 6.446154 Kilowatt <-- Power transmitted by belt

(Calculation completed in 00.004 seconds)

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Home » Engineering » Mechanical » Machine Design » Design of Belt Drives » Synchronous Belt Drives » Power transmitted by synchronous belt

Credits

Created by Aditya Prakash Gautam

Indian Institute of Technology (IIT (ISM) ), Dhanbad, Jharkhand

Aditya Prakash Gautam has created this Calculator and 25+ more calculators!

Verified by Anshika Arya

National Institute Of Technology (NIT), Hamirpur

Anshika Arya has verified this Calculator and 2500+ more calculators!

< 18 Synchronous Belt Drives Calculators

Distance from Belt pitch line to Pulley tip circle radius

Go Belt Pitch Line and Pulley Tip Circle Radius Width = (Pulley Pitch Diameter/2)-(Pulley Outside Diameter/2)

Pulley outside Diameter given Distance between Belt Pitch line and Pulley tip circle radius

Go Pulley Outside Diameter = Pulley Pitch Diameter-(2*Belt Pitch Line and Pulley Tip Circle Radius Width)

Pulley Pitch Diameter given Distance between Belt pitch line and Pulley tip circle radius

Go Pulley Pitch Diameter = (2*Belt Pitch Line and Pulley Tip Circle Radius Width)+Pulley Outside Diameter

Transmission Ratio of Synchronous belt drive given no. of teeth in smaller and larger pulley

Go Transmission Ratio of Belt Drive = Number of teeth on larger pulley/Number of teeth on smaller pulley

Number of Teeth in Smaller pulley given Transmission ratio of Synchronous belt drive

Go Number of teeth on smaller pulley = Number of teeth on larger pulley/Transmission Ratio of Belt Drive

Number of Teeth in larger pulley given Transmission ratio of Synchronous belt drive

Go Number of teeth on larger pulley = Number of teeth on smaller pulley*Transmission Ratio of Belt Drive

Transmission Ratio of Synchronous Belt drive given Pitch Diameter of Smaller and Larger Pulley

Go Transmission Ratio of Belt Drive = Pitch Diameter of Larger Pulley/Pitch Diameter of Smaller Pulley

Pitch Diameter of Smaller Pulley given Transmission Ratio of Synchronous Belt Drive

Go Pitch Diameter of Smaller Pulley = Pitch Diameter of Larger Pulley/Transmission Ratio of Belt Drive

Pitch Diameter of Larger Pulley given Transmission Ratio of Synchronous Belt Drive

Go Pitch Diameter of Larger Pulley = Pitch Diameter of Smaller Pulley*Transmission Ratio of Belt Drive

Transmission Ratio of Synchronous belt drive given Speed of smaller and larger pulley

Go Transmission Ratio of Belt Drive = Speed of Smaller Pulley/Speed of Larger Pulley

Number of Teeth in Belt given Datum Length of Synchronous Belt

Go Number of teeth on belt = Datum length of Belt/Circular Pitch for Synchronous Belt

Pitch given Datum Length of Synchronous Belt

Go Circular Pitch for Synchronous Belt = Datum length of Belt/Number of teeth on belt

Datum length of synchronous belt

Go Datum length of Belt = Circular Pitch for Synchronous Belt*Number of teeth on belt

Speed of smaller pulley given Transmission ratio of Synchronous belt drive

Go Speed of Smaller Pulley = Speed of Larger Pulley*Transmission Ratio of Belt Drive

Speed of larger pulley given Transmission ratio of Synchronous belt drive

Go Speed of Larger Pulley = Speed of Smaller Pulley/Transmission Ratio of Belt Drive

Standard Capacity of selected Belt given Power transmitted by Synchronous Belt

Go Standard Capacity of Belt = Power transmitted by belt*Service Correction Factor

Service Correction Factor given Power transmitted by Synchronous Belt

Go Service Correction Factor = Standard Capacity of Belt/Power transmitted by belt

Power transmitted by synchronous belt

Go Power transmitted by belt = Standard Capacity of Belt/Service Correction Factor

Power transmitted by synchronous belt Formula

Power transmitted by belt = Standard Capacity of Belt/Service Correction Factor
P_t = P_s/C_s

What are the factors affecting power transmission by belt drive ?

Since belt drive is a friction drive, so power transmission capacity primarily relies on the frictional characteristics of the mating surfaces. Higher the coefficient of friction between the belt and pulley, higher will be the power transmission capacity; however, heat generation and wear will also be more. Synchronous belt drive is the highly efficient system of power transmission as it has molded belt teeth meshing with sprocket teeth. Synchronous belts wrap around the sprocket by means of flexion and not by rotation of articulated parts as do chains. This eliminates one of the causes of wear and noise. Synchronous belt does not allow slippage as there are drives where synchronicity is a necessity and any slippage can cause damage.

How to Calculate Power transmitted by synchronous belt?

Power transmitted by synchronous belt calculator uses Power transmitted by belt = Standard Capacity of Belt/Service Correction Factor to calculate the Power transmitted by belt, The Power transmitted by synchronous belt formula is defined as the standard capacity of the belt divided by the service correction factor. Power transmitted by belt is denoted by P_t symbol.

How to calculate Power transmitted by synchronous belt using this online calculator? To use this online calculator for Power transmitted by synchronous belt, enter Standard Capacity of Belt (P_s) & Service Correction Factor (C_s) and hit the calculate button. Here is how the Power transmitted by synchronous belt calculation can be explained with given input values -> 0.006446 = 8380/1.3.

FAQ

What is Power transmitted by synchronous belt?

The Power transmitted by synchronous belt formula is defined as the standard capacity of the belt divided by the service correction factor and is represented as P_t = P_s/C_s or Power transmitted by belt = Standard Capacity of Belt/Service Correction Factor. Standard capacity of belt is the power capacity of the belt from which the power needs to be transmitted to the other end & Service correction factor or simply service factor is defined as the ratio of maximum torque to the rated torque.

How to calculate Power transmitted by synchronous belt?

The Power transmitted by synchronous belt formula is defined as the standard capacity of the belt divided by the service correction factor is calculated using Power transmitted by belt = Standard Capacity of Belt/Service Correction Factor. To calculate Power transmitted by synchronous belt, you need Standard Capacity of Belt (P_s) & Service Correction Factor (C_s). With our tool, you need to enter the respective value for Standard Capacity of Belt & Service Correction Factor 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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