✖Constant for Tool Type(e) refers to a numerical value or coefficient used in formulas or calculations to represent specific characteristics or properties of a particular type of cutting tool.ⓘ Constant for Tool Type(e) [e]			+10% -10%
✖Initial work piece weight refers to the weight of the raw material or stock material before any machining operations are performed on it.ⓘ Initial Work Piece Weight [W]			+10% -10%
✖Constant for tool type(f) represents a coefficient or numerical value associated with specific characteristics or properties of a particular type of cutting tool.ⓘ Constant for Tool Type(f) [f]			+10% -10%

✖Cost of one tool refers to the monetary value associated with acquiring, using, and maintaining a cutting tool for machining operations.ⓘ Cost of Machine tool given initial weight of workpiece [C]

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Formula

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Cost of Machine tool given initial weight of workpiece

Formula

`"C" = "e"*"W"^"f"`

Example

`"100"="45"*("19.24857kg")^"0.27"`

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Cost of Machine tool given initial weight of workpiece Solution

STEP 0: Pre-Calculation Summary

Formula Used

Cost of One Tool = Constant for Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f)
C = e*W^f
This formula uses 4 Variables

Variables Used

Cost of One Tool - Cost of one tool refers to the monetary value associated with acquiring, using, and maintaining a cutting tool for machining operations.
Constant for Tool Type(e) - Constant for Tool Type(e) refers to a numerical value or coefficient used in formulas or calculations to represent specific characteristics or properties of a particular type of cutting tool.
Initial Work Piece Weight - (Measured in Kilogram) - Initial work piece weight refers to the weight of the raw material or stock material before any machining operations are performed on it.
Constant for Tool Type(f) - Constant for tool type(f) represents a coefficient or numerical value associated with specific characteristics or properties of a particular type of cutting tool.

STEP 1: Convert Input(s) to Base Unit

Constant for Tool Type(e): 45 --> No Conversion Required
Initial Work Piece Weight: 19.24857 Kilogram --> 19.24857 Kilogram No Conversion Required
Constant for Tool Type(f): 0.27 --> No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C = e*W^f --> 45*19.24857^0.27

Evaluating ... ...

C = 100.000023229251

STEP 3: Convert Result to Output's Unit

100.000023229251 --> No Conversion Required

FINAL ANSWER

100.000023229251 ≈ 100 <-- Cost of One Tool

(Calculation completed in 00.004 seconds)

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< 5 Maximum Power cost Calculators

Machining Cost per component for Maximum Power when Cutting Speed is limited by Taylor's Exponent

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

Cost amortized over years given Total rate for Machining and Operator

Go Amortized Years = (Factor to allow for Machining*Constant for Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f))/((Total Rate Machining and Operator-(Factor to allow for Operator*Direct Labor Rate))*(2*Number of Shifts))

Cost of 1 Tool given Machining Cost for Maximum Power

Go Cost of One Tool = (Tool Life*((Machining and Operating Cost of Each Product/Machining Time for Maximum Cost)-Machining and Operating Rate)/Time Proportion)-(Machining and Operating Rate*Time to Change One Tool)

Machining Cost per component under Maximum Power Condition

Go Machining and Operating Cost of Each Product = Machining Time for Maximum Cost*(Machining and Operating Rate+(Time Proportion*(Machining and Operating Rate*Time to Change One Tool+Cost of One Tool)/Tool Life))

Cost of Machine tool given initial weight of workpiece

Go Cost of One Tool = Constant for Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f)

Cost of Machine tool given initial weight of workpiece Formula

Cost of One Tool = Constant for Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f)
C = e*W^f

Components Influenced by Workpiece Weight

1) Material Cost: The cost of the raw material, which is directly related to its weight. Heavier workpieces generally have higher material costs.
2) Machine Setup Cost: Costs associated with preparing the machine for a specific job, which can vary based on the size and weight of the workpiece.
3) Machining Time: The time required to machine the workpiece, which is influenced by its weight and the complexity of the machining operations. Heavier workpieces might require more time due to slower feed rates and additional passes.
4) Tool Wear and Replacement Costs: Heavier or harder materials can increase tool wear, leading to more frequent replacements or sharpening, thus increasing costs.
5) Energy Consumption: The power required to machine heavier workpieces can be higher, affecting the energy cost.
6) Labor Costs: The time and effort required by operators to handle and machine heavier workpieces.

How to Calculate Cost of Machine tool given initial weight of workpiece?

Cost of Machine tool given initial weight of workpiece calculator uses Cost of One Tool = Constant for Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f) to calculate the Cost of One Tool, Cost of Machine tool given initial weight of workpiece involves understanding the various cost components that are influenced by the weight and material of the workpiece. The weight of the workpiece can affect the machining time, tool wear, energy consumption, and other operational aspects. Cost of One Tool is denoted by C symbol.

How to calculate Cost of Machine tool given initial weight of workpiece using this online calculator? To use this online calculator for Cost of Machine tool given initial weight of workpiece, enter Constant for Tool Type(e) (e), Initial Work Piece Weight (W) & Constant for Tool Type(f) (f) and hit the calculate button. Here is how the Cost of Machine tool given initial weight of workpiece calculation can be explained with given input values -> 89.56931 = 45*19.24857^0.27.

FAQ

What is Cost of Machine tool given initial weight of workpiece?

Cost of Machine tool given initial weight of workpiece involves understanding the various cost components that are influenced by the weight and material of the workpiece. The weight of the workpiece can affect the machining time, tool wear, energy consumption, and other operational aspects and is represented as C = e*W^f or Cost of One Tool = Constant for Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f). Constant for Tool Type(e) refers to a numerical value or coefficient used in formulas or calculations to represent specific characteristics or properties of a particular type of cutting tool, Initial work piece weight refers to the weight of the raw material or stock material before any machining operations are performed on it & Constant for tool type(f) represents a coefficient or numerical value associated with specific characteristics or properties of a particular type of cutting tool.

How to calculate Cost of Machine tool given initial weight of workpiece?

Cost of Machine tool given initial weight of workpiece involves understanding the various cost components that are influenced by the weight and material of the workpiece. The weight of the workpiece can affect the machining time, tool wear, energy consumption, and other operational aspects is calculated using Cost of One Tool = Constant for Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f). To calculate Cost of Machine tool given initial weight of workpiece, you need Constant for Tool Type(e) (e), Initial Work Piece Weight (W) & Constant for Tool Type(f) (f). With our tool, you need to enter the respective value for Constant for Tool Type(e), Initial Work Piece Weight & Constant for Tool Type(f) 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 Cost of One Tool?

In this formula, Cost of One Tool uses Constant for Tool Type(e), Initial Work Piece Weight & Constant for Tool Type(f). We can use 1 other way(s) to calculate the same, which is/are as follows -

Cost of One Tool = (Tool Life*((Machining and Operating Cost of Each Product/Machining Time for Maximum Cost)-Machining and Operating Rate)/Time Proportion)-(Machining and Operating Rate*Time to Change One Tool)

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