Number of workpiece revolutions given Time taken for spark out operation Calculator

✖Time taken for spark-out operation is defined as the total amount of time taken during the spark out operation.ⓘ Time taken for spark-out operation [t_s]			+10% -10%
✖Rotational Frequency is defined as the number of rotations per unit time or reciprocal of the time period of one complete rotation.ⓘ Rotational Frequency [ν_rot]			+10% -10%

✖The Number of Workpiece revolution is defined as the number of revolutions did workpiece take to complete the grinding.ⓘ Number of workpiece revolutions given Time taken for spark out operation [m]

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Formula

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Number of workpiece revolutions given Time taken for spark out operation

Formula

`"m" = "t"_{"s"}*"ν"_{"rot"}`

Example

`"1500"="2.5min"*"10Hz"`

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Number of workpiece revolutions given Time taken for spark out operation Solution

STEP 0: Pre-Calculation Summary

Formula Used

Number of Workpiece revolution = Time taken for spark-out operation*Rotational Frequency
m = t_s*ν_rot
This formula uses 3 Variables

Variables Used

Number of Workpiece revolution - The Number of Workpiece revolution is defined as the number of revolutions did workpiece take to complete the grinding.
Time taken for spark-out operation - (Measured in Second) - Time taken for spark-out operation is defined as the total amount of time taken during the spark out operation.
Rotational Frequency - (Measured in Hertz) - Rotational Frequency is defined as the number of rotations per unit time or reciprocal of the time period of one complete rotation.

STEP 1: Convert Input(s) to Base Unit

Time taken for spark-out operation: 2.5 Minute --> 150 Second (Check conversion here)
Rotational Frequency: 10 Hertz --> 10 Hertz No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

m = t_s*ν_rot --> 150*10

Evaluating ... ...

m = 1500

STEP 3: Convert Result to Output's Unit

1500 --> No Conversion Required

FINAL ANSWER

1500 <-- Number of Workpiece revolution

(Calculation completed in 00.019 seconds)

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Credits

Created by Parul Keshav

National Institute of Technology (NIT), Srinagar

Parul Keshav has created this Calculator and 300+ more calculators!

Verified by Kumar Siddhant

Indian Institute of Information Technology, Design and Manufacturing (IIITDM), Jabalpur

Kumar Siddhant has verified this Calculator and 100+ more calculators!

< 14 Workpiece Calculators

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Go Diameter of Workpiece = Workpiece removal parameter*Diameter of Grinding Tool Wheel*((Machine Infeed speed/Feed Speed)-1)/Wheel Removal Parameter

Surface speed of workpiece given constant for grinding wheel

Go Surface Speed of Workpiece = (Maximum Undeformed Chip Thickness^2)*Surface Speed of Wheel/(Constant for particular grinding wheel*sqrt(Feed))

Workpiece diameter given equivalent wheel diameter

Go Diameter of Workpiece = Equivalent Wheel Diameter*Diameter of Grinding Tool Wheel/(Diameter of Grinding Tool Wheel-Equivalent Wheel Diameter)

Workpiece removal parameter given number of workpiece revolution

Go Workpiece removal parameter = 2*Surface Speed of Workpiece*Width of Grinding Path/(Number of Workpiece revolution*Effective stiffness)

Workpiece surface speed given number of workpiece revolutions

Go Surface Speed of Workpiece = Number of Workpiece revolution*Workpiece removal parameter*Effective stiffness/(2*Width of Grinding Path)

Width of Grinding path given number of workpiece revolutions

Go Width of Grinding Path = Number of Workpiece revolution*Workpiece removal parameter*Effective stiffness/(2*Surface Speed of Workpiece)

System stiffness given Number of workpiece revolution

Go Effective stiffness = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Number of Workpiece revolution)

Number of workpiece revolution

Go Number of Workpiece revolution = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Effective stiffness)

Diameter of workpiece given Metal removal rate

Go Diameter of Workpiece = Metal removal rate/(Feed Speed*pi*Width of Grinding Path)

Surface Speed of workpiece given Metal removal rate during grinding

Go Surface Speed of Workpiece = Material Removal Rate/(Feed*Width of Grinding Path)

Percentage Volume of Bond material in wheel of grinding

Go Percentage Volume of Bond Material in Grinding = (1.33*Wheel hardness number)+(2.2*Wheel structure number)-8

Number of workpiece revolutions given Time taken for spark out operation

Go Number of Workpiece revolution = Time taken for spark-out operation*Rotational Frequency

Rotational frequency of workpiece given Number of workpiece revolution

Go Rotational Frequency = Number of Workpiece revolution/Time taken for spark-out operation

Proportion of Total Energy flowing into workpiece

Go Proportion of total energy flowing into workpiece = (0.6+0.05*Relative Contact Area of Grain)*100

Number of workpiece revolutions given Time taken for spark out operation Formula

Number of Workpiece revolution = Time taken for spark-out operation*Rotational Frequency
m = t_s*ν_rot

What causes chatter in grinding?

Usually, in the grinding process, the chatter phenomenon occurs by means of vibrations with higher magnitude, close to the harmonic vibrations of the workpiece and of the grinding wheel, which compromise the quality of the workpiece surface.

How to Calculate Number of workpiece revolutions given Time taken for spark out operation?

Number of workpiece revolutions given Time taken for spark out operation calculator uses Number of Workpiece revolution = Time taken for spark-out operation*Rotational Frequency to calculate the Number of Workpiece revolution, The Number of workpiece revolutions given Time taken for spark out operation is defined as the number of revolutions did workpiece take to complete the grinding. Number of Workpiece revolution is denoted by m symbol.

How to calculate Number of workpiece revolutions given Time taken for spark out operation using this online calculator? To use this online calculator for Number of workpiece revolutions given Time taken for spark out operation, enter Time taken for spark-out operation (t_s) & Rotational Frequency (ν_rot) and hit the calculate button. Here is how the Number of workpiece revolutions given Time taken for spark out operation calculation can be explained with given input values -> 1500 = 150*10.

FAQ

What is Number of workpiece revolutions given Time taken for spark out operation?

The Number of workpiece revolutions given Time taken for spark out operation is defined as the number of revolutions did workpiece take to complete the grinding and is represented as m = t_s*ν_rot or Number of Workpiece revolution = Time taken for spark-out operation*Rotational Frequency. Time taken for spark-out operation is defined as the total amount of time taken during the spark out operation & Rotational Frequency is defined as the number of rotations per unit time or reciprocal of the time period of one complete rotation.

How to calculate Number of workpiece revolutions given Time taken for spark out operation?

The Number of workpiece revolutions given Time taken for spark out operation is defined as the number of revolutions did workpiece take to complete the grinding is calculated using Number of Workpiece revolution = Time taken for spark-out operation*Rotational Frequency. To calculate Number of workpiece revolutions given Time taken for spark out operation, you need Time taken for spark-out operation (t_s) & Rotational Frequency (ν_rot). With our tool, you need to enter the respective value for Time taken for spark-out operation & Rotational Frequency 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 Number of Workpiece revolution?

In this formula, Number of Workpiece revolution uses Time taken for spark-out operation & Rotational Frequency. We can use 1 other way(s) to calculate the same, which is/are as follows -

Number of Workpiece revolution = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Effective stiffness)

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