Constant for machine type given Power available for Machining Calculator

✖Power Available for Machining is defined as the amount of power available during the machining process.ⓘ Power Available For Machining [P_m]			+10% -10%
✖Initial Work Piece Weight is defined as the weight of the work piece before undergoing machining operation.ⓘ Initial Work Piece Weight [W]			+10% -10%
✖Constant For Tool Type(b) is defined as the constant for the type of material used in the tool.ⓘ Constant For Tool Type(b) [b]			+10% -10%

✖Constant For Tool Type(a) is defined as the constant for the type of material used in the tool.ⓘ Constant for machine type given Power available for Machining [a]

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Constant for machine type given Power available for Machining Solution

STEP 0: Pre-Calculation Summary

Formula Used

Constant For Tool Type(a) = Power Available For Machining/(Initial Work Piece Weight)^Constant For Tool Type(b)
a = P_m/(W)^b
This formula uses 4 Variables

Variables Used

Constant For Tool Type(a) - Constant For Tool Type(a) is defined as the constant for the type of material used in the tool.
Power Available For Machining - (Measured in Kilowatt) - Power Available for Machining is defined as the amount of power available during the machining process.
Initial Work Piece Weight - (Measured in Kilogram) - Initial Work Piece Weight is defined as the weight of the work piece before undergoing machining operation.
Constant For Tool Type(b) - Constant For Tool Type(b) is defined as the constant for the type of material used in the tool.

STEP 1: Convert Input(s) to Base Unit

Power Available For Machining: 11.2 Kilowatt --> 11.2 Kilowatt No Conversion Required
Initial Work Piece Weight: 12.79999 Kilogram --> 12.79999 Kilogram No Conversion Required
Constant For Tool Type(b): 0.529999827884223 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

a = P_m/(W)^b --> 11.2/(12.79999)^0.529999827884223

Evaluating ... ...

a = 2.89999406538903

STEP 3: Convert Result to Output's Unit

2.89999406538903 --> No Conversion Required

FINAL ANSWER

2.89999406538903 ≈ 2.899994 <-- Constant For Tool Type(a)

(Calculation completed in 00.004 seconds)

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Created by Parul Keshav

National Institute of Technology (NIT), Srinagar

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University Institute of Technology RGPV (UIT - RGPV), Bhopal

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< Initial Weight of Workpiece Calculators

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

Power available for Machining given Initial weight of workpiece

LaTeX Go Power Available For Machining = Constant Power For Tool Type(a)*(Initial Work Piece Weight)^Constant For Tool Type(b)

Initial weight of workpiece given Power available for Machining

LaTeX Go Initial Work Piece Weight = (Power Available For Machining/Constant For Tool Type(a))^(1/Constant For Tool Type(b))

Surface area of Workpiece given Surface Generation rate

LaTeX Go Surface Area of Workpiece = (Machining Surface Generation Time For Minimum Cost*Surface Generation Rate)

Constant for machine type given Power available for Machining Formula

LaTeX Go

Constant For Tool Type(a) = Power Available For Machining/(Initial Work Piece Weight)^Constant For Tool Type(b)
a = P_m/(W)^b

What are the 7 basic types of machine tools?

They retain the basic characteristics of their 19th- and early 20th-century ancestors and are still classed as one of the following: (1) turning machines (lathes and boring mills), (2) shapers and planers, (3) drilling machines, (4) milling machines, (5) grinding machines, (6) power saws, and (7) presses.

How to Calculate Constant for machine type given Power available for Machining?

Constant for machine type given Power available for Machining calculator uses Constant For Tool Type(a) = Power Available For Machining/(Initial Work Piece Weight)^Constant For Tool Type(b) to calculate the Constant For Tool Type(a), The Constant for machine type given Power available for Machining is defined as constant for type of material used in tool. Constant For Tool Type(a) is denoted by a symbol.

How to calculate Constant for machine type given Power available for Machining using this online calculator? To use this online calculator for Constant for machine type given Power available for Machining, enter Power Available For Machining (P_m), Initial Work Piece Weight (W) & Constant For Tool Type(b) (b) and hit the calculate button. Here is how the Constant for machine type given Power available for Machining calculation can be explained with given input values -> 2.9 = 11200/(12.79999)^0.529999827884223.

FAQ

What is Constant for machine type given Power available for Machining?

The Constant for machine type given Power available for Machining is defined as constant for type of material used in tool and is represented as a = P_m/(W)^b or Constant For Tool Type(a) = Power Available For Machining/(Initial Work Piece Weight)^Constant For Tool Type(b). Power Available for Machining is defined as the amount of power available during the machining process, Initial Work Piece Weight is defined as the weight of the work piece before undergoing machining operation & Constant For Tool Type(b) is defined as the constant for the type of material used in the tool.

How to calculate Constant for machine type given Power available for Machining?

The Constant for machine type given Power available for Machining is defined as constant for type of material used in tool is calculated using Constant For Tool Type(a) = Power Available For Machining/(Initial Work Piece Weight)^Constant For Tool Type(b). To calculate Constant for machine type given Power available for Machining, you need Power Available For Machining (P_m), Initial Work Piece Weight (W) & Constant For Tool Type(b) (b). With our tool, you need to enter the respective value for Power Available For Machining, Initial Work Piece Weight & Constant For Tool Type(b) 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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