Number of workpiece revolution Solution

STEP 0: Pre-Calculation Summary
Formula Used
Number of Workpiece revolution = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Effective stiffness)
m = 2*vw*ap/(ΛW*Se)
This formula uses 5 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.
Surface Speed of Workpiece - (Measured in Meter per Second) - Surface Speed of Workpiece is the speed of the surface rotating with respect to grinding tool.
Width of Grinding Path - (Measured in Meter) - Width of grinding path is defined as the width of the path of the grinding tool.
Workpiece removal parameter - Workpiece removal parameter is the ratio of the volume of workpiece removed per unit time per unit thrust force.
Effective stiffness - (Measured in Newton per Meter) - Effective stiffness is the total extent to which a workpiece resists deformation in response to an applied force.
STEP 1: Convert Input(s) to Base Unit
Surface Speed of Workpiece: 100 Millimeter per Second --> 0.1 Meter per Second (Check conversion here)
Width of Grinding Path: 1100 Millimeter --> 1.1 Meter (Check conversion here)
Workpiece removal parameter: 10 --> No Conversion Required
Effective stiffness: 13 Newton per Meter --> 13 Newton per Meter No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
m = 2*vw*ap/(ΛW*Se) --> 2*0.1*1.1/(10*13)
Evaluating ... ...
m = 0.00169230769230769
STEP 3: Convert Result to Output's Unit
0.00169230769230769 --> No Conversion Required
FINAL ANSWER
0.00169230769230769 0.001692 <-- Number of Workpiece revolution
(Calculation completed in 00.004 seconds)

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
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17 Cylindrical Grinding cycle Calculators

Rockwell hardness number of work material from Lindsay semiempirical analysis
Go Rockwell Hardness number = ((7.93*100000*((Surface Speed of Workpiece/Surface Speed of Wheel)^0.158)*(1+(4*Depth of Dress/(3*Feed)))*Feed^0.58*Surface Speed of Wheel)/(Equivalent Wheel Diameter^0.14*Percentage Volume of Bond Material in Grinding^0.47*Grain diameter of the grinding wheel^0.13*Wheel Removal Parameter))^(100/142)
Percentage Volume of Bond material from Lindsay's semiempirical analysis
Go Percentage Volume of Bond Material in Grinding = ((7.93*100000*((Surface Speed of Workpiece/Surface Speed of Wheel)^0.158)*(1+(4*Depth of Dress/(3*Feed)))*Feed^0.58*Surface Speed of Wheel)/(Equivalent Wheel Diameter^0.14*Wheel Removal Parameter*Grain diameter of the grinding wheel^0.13*Rockwell Hardness number^1.42))^(100/47)
Equivalent wheel diameter from Lindsay's semiempirical analysis
Go Equivalent Wheel Diameter = ((7.93*100000*((Surface Speed of Workpiece/Surface Speed of Wheel)^0.158)*(1+(4*Depth of Dress/(3*Feed)))*Feed^0.58*Surface Speed of Wheel)/(Wheel Removal Parameter*Percentage Volume of Bond Material in Grinding^0.47*Grain diameter of the grinding wheel^0.13*Rockwell Hardness number^1.42))^(100/14)
Grain diameter from Lindsay's semiempirical analysis
Go Grain diameter of the grinding wheel = ((7.93*100000*((Surface Speed of Workpiece/Surface Speed of Wheel)^0.158)*(1+(4*Depth of Dress/(3*Feed)))*Feed^0.58*Surface Speed of Wheel)/(Equivalent Wheel Diameter^0.14*Percentage Volume of Bond Material in Grinding^0.47*Wheel Removal Parameter*Rockwell Hardness number^1.42))^(100/13)
Depth of dress from Lindsay semiempirical analysis
Go Depth of Dress = (((Wheel Removal Parameter*Equivalent Wheel Diameter^0.14*Percentage Volume of Bond Material in Grinding^0.47*Grain diameter of the grinding wheel^0.13*Rockwell Hardness number^1.42)/(7.93*100000*((Surface Speed of Workpiece/Surface Speed of Wheel)^0.158)*Feed^0.58*Surface Speed of Wheel))-1)*3*Feed/4
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)
Equivalent wheel diameter
Go Equivalent Wheel Diameter = Diameter of Grinding Tool Wheel/(1+(Diameter of Grinding Tool Wheel/Diameter of Workpiece))
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
Time taken for spark-out operation
Go Time taken for spark-out operation = Number of Workpiece revolution/Rotational Frequency
Relative contact area of grains given Total Energy flowing into workpiece
Go Relative Contact Area of Grain = ((Proportion of total energy flowing into workpiece/100)-0.6)/0.05
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
Grain Diameter of grinding wheel
Go Grain diameter of the grinding wheel = 0.0254/Grain size (in mm)
Grain size given grain Diameter
Go Grain size (in mm) = 0.0254/Grain diameter of the grinding wheel

Number of workpiece revolution Formula

Number of Workpiece revolution = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Effective stiffness)
m = 2*vw*ap/(ΛW*Se)

What is grinding used for?

Grinding is a machining process that's used to remove material from a workpiece via a grinding wheel. As the grinding wheel turns, it cuts material off the workpiece while creating a smooth surface texture in the process.

How to Calculate Number of workpiece revolution?

Number of workpiece revolution calculator uses Number of Workpiece revolution = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Effective stiffness) to calculate the Number of Workpiece revolution, The Number of workpiece revolution 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 revolution using this online calculator? To use this online calculator for Number of workpiece revolution, enter Surface Speed of Workpiece (vw), Width of Grinding Path (ap), Workpiece removal parameter W) & Effective stiffness (Se) and hit the calculate button. Here is how the Number of workpiece revolution calculation can be explained with given input values -> 0.001692 = 2*0.1*1.1/(10*13).

FAQ

What is Number of workpiece revolution?
The Number of workpiece revolution is defined as the number of revolutions did workpiece take to complete the grinding and is represented as m = 2*vw*ap/(ΛW*Se) or Number of Workpiece revolution = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Effective stiffness). Surface Speed of Workpiece is the speed of the surface rotating with respect to grinding tool, Width of grinding path is defined as the width of the path of the grinding tool, Workpiece removal parameter is the ratio of the volume of workpiece removed per unit time per unit thrust force & Effective stiffness is the total extent to which a workpiece resists deformation in response to an applied force.
How to calculate Number of workpiece revolution?
The Number of workpiece revolution is defined as the number of revolutions did workpiece take to complete the grinding is calculated using Number of Workpiece revolution = 2*Surface Speed of Workpiece*Width of Grinding Path/(Workpiece removal parameter*Effective stiffness). To calculate Number of workpiece revolution, you need Surface Speed of Workpiece (vw), Width of Grinding Path (ap), Workpiece removal parameter W) & Effective stiffness (Se). With our tool, you need to enter the respective value for Surface Speed of Workpiece, Width of Grinding Path, Workpiece removal parameter & Effective stiffness 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 Surface Speed of Workpiece, Width of Grinding Path, Workpiece removal parameter & Effective stiffness. We can use 1 other way(s) to calculate the same, which is/are as follows -
  • Number of Workpiece revolution = Time taken for spark-out operation*Rotational Frequency
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