Depth of cut given Machining time for maximum power Calculator

✖Machining Time For Maximum Power is the time for processing when the workpiece is machined under maximum power conditions.ⓘ Machining Time For Maximum Power [tmax_p]			+10% -10%
✖Power Available for Machining is defined as the amount of power available during the machining process.ⓘ Power Available For Machining [P_m]			+10% -10%
✖Specific Cutting Energy in Machining is the energy consumed to remove a unit volume of material, which is calculated as the ratio of cutting energy E to material removal volume V.ⓘ Specific Cutting Energy in Machining [p_s]			+10% -10%
✖Length of Workpiece is the measurement or extent of Workpiece from end to end in the direction of Cut.ⓘ Length of Workpiece [L]			+10% -10%
✖The Diameter of Workpiece is defined as the diameter of the workpiece which is undergoing grinding.ⓘ Diameter of Workpiece [d_w]			+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 given Machining time for maximum power [d_cut]

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Depth of cut given Machining time for maximum power

Formula

`"d"_{"cut"} = ("tmax"_{"p"}*"P"_{"m"})/("p"_{"s"}*pi*"L"*"d"_{"w"}) `

Example

`"3.003925mm"=("48.925s"*"11.20kW")/("3000MJ/m³"*pi*"254mm"*"76.20mm") `

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Depth of cut given Machining time for maximum power Solution

STEP 0: Pre-Calculation Summary

Formula Used

Depth of Cut = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Length of Workpiece*Diameter of Workpiece)
d_cut = (tmax_p*P_m)/(p_s*pi*L*d_w)
This formula uses 1 Constants, 6 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

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.
Machining Time For Maximum Power - (Measured in Second) - Machining Time For Maximum Power is the time for processing when the workpiece is machined under maximum power conditions.
Power Available For Machining - (Measured in Watt) - Power Available for Machining is defined as the amount of power available during the machining process.
Specific Cutting Energy in Machining - (Measured in Joule per Cubic Meter) - Specific Cutting Energy in Machining is the energy consumed to remove a unit volume of material, which is calculated as the ratio of cutting energy E to material removal volume V.
Length of Workpiece - (Measured in Meter) - Length of Workpiece is the measurement or extent of Workpiece from end to end in the direction of Cut.
Diameter of Workpiece - (Measured in Meter) - The Diameter of Workpiece is defined as the diameter of the workpiece which is undergoing grinding.

STEP 1: Convert Input(s) to Base Unit

Machining Time For Maximum Power: 48.925 Second --> 48.925 Second No Conversion Required
Power Available For Machining: 11.2 Kilowatt --> 11200 Watt (Check conversion here)
Specific Cutting Energy in Machining: 3000 Megajoule per Cubic Meter --> 3000000000 Joule per Cubic Meter (Check conversion here)
Length of Workpiece: 254 Millimeter --> 0.254 Meter (Check conversion here)
Diameter of Workpiece: 76.2 Millimeter --> 0.0762 Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

d_cut = (tmax_p*P_m)/(p_s*pi*L*d_w) --> (48.925*11200)/(3000000000*pi*0.254*0.0762)

Evaluating ... ...

d_cut = 0.00300392469797793

STEP 3: Convert Result to Output's Unit

0.00300392469797793 Meter -->3.00392469797793 Millimeter (Check conversion here)

FINAL ANSWER

3.00392469797793 ≈ 3.003925 Millimeter <-- Depth of Cut

(Calculation completed in 00.004 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 Kethavath Srinath

Osmania University (OU), Hyderabad

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< 19 Machining Time Calculators

Constant for machine type b given Machining time for maximum power

Go Constant For Tool Type(b) = 1-(ln(Density of Work Piece*Constant For Tool Type(a)*Machining Time For Maximum Power)-ln(Proportion of Initial Volume*Specific Cutting Energy in Machining))/ln(Initial Work Piece Weight)

Machining Time for optimum speed for Maximum Power given Machining Cost

Go Machining Time for Minimum Cost = Machining Time For Maximum Power*((((Machining and Operating Cost of Each Product/(Machining and Operating Rate*Machining Time For Maximum Power))-1)*(1-Taylor's Tool Life Exponent)/Taylor's Tool Life Exponent)^Taylor's Tool Life Exponent)

Tool Changing Time for 1 Tool given Machining Cost for Maximum Power

Go Time to Change One Tool = ((Tool Life*((Machining and Operating Cost of Each Product/Machining Time For Maximum Power)-Machining and Operating Rate)/Time Proportion of Cutting Edge Engagement)-Cost of A Tool)/Machining and Operating Rate

Time Proportion of Cutting Edge Engagement for Maximum Power delivery given Machining Cost

Go Time Proportion of Cutting Edge Engagement = Tool Life*((Machining and Operating Cost of Each Product/Machining Time For Maximum Power)-Machining and Operating Rate)/(Machining and Operating Rate*Time to Change One Tool+Cost of A Tool)

Tool Life for Maximum Power delivery given Machining Cost for Maximum Power

Go Tool Life = Time Proportion of Cutting Edge Engagement*(Machining and Operating Rate*Time to Change One Tool+Cost of A Tool)/((Machining and Operating Cost of Each Product/Machining Time For Maximum Power)-Machining and Operating Rate)

Machining Time for Maximum Power given Machining Cost

Go Machining Time For Maximum Power = Machining and Operating Cost of Each Product/(Machining and Operating Rate+(Time Proportion of Cutting Edge Engagement*(Machining and Operating Rate*Time to Change One Tool+Cost of A Tool)/Tool Life))

Machining time for maximum power given Initial weight of workpiece

Go Machining Time For Maximum Power = (Proportion of Initial Volume*Specific Cutting Energy in Machining*Initial Work Piece Weight^(1-Constant For Tool Type(b)))/(Density of Work Piece*Constant For Tool Type(a))

Constant for machine type given Machining time for maximum power

Go Constant For Tool Type(a) = (Proportion of Initial Volume*Specific Cutting Energy in Machining*Initial Work Piece Weight^(1-Constant For Tool Type(b)))/(Density of Work Piece*Machining Time For Maximum Power)

Depth of cut given Machining time for maximum power

Go Depth of Cut = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Length of Workpiece*Diameter of Workpiece)

Diameter of workpiece terms of Machining time for maximum power

Go Diameter of Workpiece = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Length of Workpiece*Depth of Cut)

Length of Workpiece given Surface Generation rate

Go Length of Workpiece = (Machining Time for Minimum Cost*Surface Generation Rate)/(pi*Diameter of Workpiece)

Specific cutting energy given Machining time for maximum power

Go Specific Cutting Energy in Machining = (Machining Time For Maximum Power*Power Available For Machining)/(Volume of Work Material Removed)

Power available for Machining given Machining time for maximum power

Go Power Available For Machining = (60*Volume of Work Material Removed*Specific Cutting Energy in Machining)/Machining Time For Maximum Power

Diameter of Workpiece given Surface Generation rate

Go Diameter of Workpiece = (Machining Time for Minimum Cost*Surface Generation Rate)/(pi*Length of Workpiece)

Volume of material to be removed given Machining time for maximum power

Go Volume of Work Material Removed = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining)

Machining time for maximum power in Turning

Go Machining Time For Maximum Power = (Volume of Work Material Removed*Specific Cutting Energy in Machining)/Power Available For Machining

Machining Time for Minimum Cost given Surface Generation rate

Go Machining Time for Minimum Cost = (Surface Area of Workpiece)/Surface Generation Rate

Surface Generation Rate

Go Surface Generation Rate = (Surface Area of Workpiece)/Machining Time for Minimum Cost

Machining time under Max power for free machining

Go Machining Time For Maximum Power = 49.9*Initial Work Piece Weight^0.47

Depth of cut given Machining time for maximum power Formula

Depth of Cut = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Length of Workpiece*Diameter of Workpiece)
d_cut = (tmax_p*P_m)/(p_s*pi*L*d_w)

What is turning used to make?

Turning is used to produce rotational, typically axisymmetric, parts that have many features, such as holes, grooves, threads, tapers, various diameter steps, and even contoured surfaces.

How to Calculate Depth of cut given Machining time for maximum power?

Depth of cut given Machining time for maximum power calculator uses Depth of Cut = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Length of Workpiece*Diameter of Workpiece) to calculate the Depth of Cut, The Depth of cut given Machining time for maximum power is the total amount of metal removed per pass of the cutting tool. It is also called Back Engagement. Depth of Cut is denoted by d_cut symbol.

How to calculate Depth of cut given Machining time for maximum power using this online calculator? To use this online calculator for Depth of cut given Machining time for maximum power, enter Machining Time For Maximum Power (tmax_p), Power Available For Machining (P_m), Specific Cutting Energy in Machining (p_s), Length of Workpiece (L) & Diameter of Workpiece (d_w) and hit the calculate button. Here is how the Depth of cut given Machining time for maximum power calculation can be explained with given input values -> 3003.925 = (48.925*11200)/(3000000000*pi*0.254*0.0762) .

FAQ

What is Depth of cut given Machining time for maximum power?

The Depth of cut given Machining time for maximum power is the total amount of metal removed per pass of the cutting tool. It is also called Back Engagement and is represented as d_cut = (tmax_p*P_m)/(p_s*pi*L*d_w) or Depth of Cut = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Length of Workpiece*Diameter of Workpiece). Machining Time For Maximum Power is the time for processing when the workpiece is machined under maximum power conditions, Power Available for Machining is defined as the amount of power available during the machining process, Specific Cutting Energy in Machining is the energy consumed to remove a unit volume of material, which is calculated as the ratio of cutting energy E to material removal volume V, Length of Workpiece is the measurement or extent of Workpiece from end to end in the direction of Cut & The Diameter of Workpiece is defined as the diameter of the workpiece which is undergoing grinding.

How to calculate Depth of cut given Machining time for maximum power?

The Depth of cut given Machining time for maximum power is the total amount of metal removed per pass of the cutting tool. It is also called Back Engagement is calculated using Depth of Cut = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Length of Workpiece*Diameter of Workpiece). To calculate Depth of cut given Machining time for maximum power, you need Machining Time For Maximum Power (tmax_p), Power Available For Machining (P_m), Specific Cutting Energy in Machining (p_s), Length of Workpiece (L) & Diameter of Workpiece (d_w). With our tool, you need to enter the respective value for Machining Time For Maximum Power, Power Available For Machining, Specific Cutting Energy in Machining, Length of Workpiece & Diameter of Workpiece 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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