Cross sectional Area of Uncut Chip Calculator

✖Feed Rate is defined as the tool's distance travelled during one spindle revolution.ⓘ Feed Rate [F]			+10% -10%
✖Depth of Cut is the tertiary cutting motion that provides a necessary depth of material that is required to remove by machining. It is usually given in the third perpendicular direction.ⓘ Depth of Cut [D_cut]			+10% -10%

✖The Cross-sectional Area of Uncut Chip is the area enclosed within the outer surface of the workpiece and the line of cut followed by the single-point cutting edge. It is calculated for one pass.ⓘ Cross sectional Area of Uncut Chip [A_c]

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Formula

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Cross sectional Area of Uncut Chip

Formula

`"A"_{"c"} = "F"*"D"_{"cut"}`

Example

`"10.5mm²"="0.70mm/rev"*"15mm"`

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Cross sectional Area of Uncut Chip Solution

STEP 0: Pre-Calculation Summary

Formula Used

Cross-sectional Area of Uncut Chip = Feed Rate*Depth of Cut
A_c = F*D_cut
This formula uses 3 Variables

Variables Used

Cross-sectional Area of Uncut Chip - (Measured in Square Meter) - The Cross-sectional Area of Uncut Chip is the area enclosed within the outer surface of the workpiece and the line of cut followed by the single-point cutting edge. It is calculated for one pass.
Feed Rate - (Measured in Meter Per Revolution) - Feed Rate is defined as the tool's distance travelled during one spindle revolution.
Depth of Cut - (Measured in Meter) - Depth of Cut is the tertiary cutting motion that provides a necessary depth of material that is required to remove by machining. It is usually given in the third perpendicular direction.

STEP 1: Convert Input(s) to Base Unit

Feed Rate: 0.7 Millimeter Per Revolution --> 0.0007 Meter Per Revolution (Check conversion here)
Depth of Cut: 15 Millimeter --> 0.015 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

A_c = F*D_cut --> 0.0007*0.015

Evaluating ... ...

A_c = 1.05E-05

STEP 3: Convert Result to Output's Unit

1.05E-05 Square Meter -->10.5 Square Millimeter (Check conversion here)

FINAL ANSWER

10.5 Square Millimeter <-- Cross-sectional Area of Uncut Chip

(Calculation completed in 00.004 seconds)

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Created by Kumar Siddhant

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

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National Institute Of Technology (NIT), Hamirpur

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< 10+ Cutting Operation Calculators

Average Material Removal Rate given Depth of Cut

Go Material Removal Rate in Turning Operation = pi*Feed Rate in Machining*Depth of Cut in Machining*Rotational Frequency of the Workpiece*(Machined Surface Diameter+Depth of Cut in Machining)

Average Material Removal Rate given Depth of Cut for Boring Operation

Go Material Removal Rate in Boring Operation = pi*Feed Rate in Machining*Depth of Cut in Machining*Rotational Frequency of the Workpiece*(Machined Surface Diameter-Depth of Cut in Machining)

Mean Cutting Speed

Go Mean Cutting Speed in Turning = Workpiece Revolution*pi*(Work Surface Diameter+Machine Surface Diameter)/2

Energy per Unit Material Removal given Efficiency of Motor Drive System

Go Energy Required for Unit Volume Removal = Electrical Power Consumed in Machining*Overall Efficiency of Prime Mover/Metal removal rate

Average Material Removal Rate using Uncut Chip Cross-Section Area

Go Material Removal Rate in Turning Operation = Cross-Sectional Area of the Uncut Chip*Mean Cutting Speed

Cutting Speed Angle using Resultant Cutting Speed

Go Cutting Speed Angle = acos(Cutting Velocity/Resultant Cutting Velocity)

Overall Efficiency of Machine Tool and Motor Drive System

Go Overall Efficiency of Prime Mover = Machining Power/Electrical Power Consumed in Machining

Cutting Speed in Turning

Go Cutting Speed = pi*Diameter of Workpiece*Spindle Speed

Power required for Machining Operation

Go Machining Power = Metal removal rate*Energy Required for Unit Volume Removal

Cross sectional Area of Uncut Chip

Go Cross-sectional Area of Uncut Chip = Feed Rate*Depth of Cut

Cross sectional Area of Uncut Chip Formula

Cross-sectional Area of Uncut Chip = Feed Rate*Depth of Cut
A_c = F*D_cut

Back Engagement and Depth of Cut

The Back Engagement is the instantaneous engagement of the Tool with the Workpiece, measured perpendicularly to the plane containing directions of primary and feed motion.
When looked over a limit of complete length, Back Engagement is simply Depth of Cut.

How to Calculate Cross sectional Area of Uncut Chip?

Cross sectional Area of Uncut Chip calculator uses Cross-sectional Area of Uncut Chip = Feed Rate*Depth of Cut to calculate the Cross-sectional Area of Uncut Chip, The Cross sectional Area of Uncut Chip formula is used to calculate the Cross-section area of the material being removed during machining. Cross-sectional Area of Uncut Chip is denoted by A_c symbol.

How to calculate Cross sectional Area of Uncut Chip using this online calculator? To use this online calculator for Cross sectional Area of Uncut Chip, enter Feed Rate (F) & Depth of Cut (D_cut) and hit the calculate button. Here is how the Cross sectional Area of Uncut Chip calculation can be explained with given input values -> 1.1E+7 = 0.0007*0.015.

FAQ

What is Cross sectional Area of Uncut Chip?

The Cross sectional Area of Uncut Chip formula is used to calculate the Cross-section area of the material being removed during machining and is represented as A_c = F*D_cut or Cross-sectional Area of Uncut Chip = Feed Rate*Depth of Cut. Feed Rate is defined as the tool's distance travelled during one spindle revolution & Depth of Cut is the tertiary cutting motion that provides a necessary depth of material that is required to remove by machining. It is usually given in the third perpendicular direction.

How to calculate Cross sectional Area of Uncut Chip?

The Cross sectional Area of Uncut Chip formula is used to calculate the Cross-section area of the material being removed during machining is calculated using Cross-sectional Area of Uncut Chip = Feed Rate*Depth of Cut. To calculate Cross sectional Area of Uncut Chip, you need Feed Rate (F) & Depth of Cut (D_cut). With our tool, you need to enter the respective value for Feed Rate & Depth of Cut 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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