Cost of 1 Tool given Optimum Spindle Speed Calculator

✖Machining and Operating Rate is the money charged for processing on and operating machines per unit time, including overheads.ⓘ Machining and Operating Rate [M]			+10% -10%
✖Reference Cutting Velocity refers to a standard cutting speed used as a baseline or reference point for selecting appropriate cutting speeds for specific machining operations.ⓘ Reference Cutting Velocity [V_ref]			+10% -10%
✖Outer Radius of Workpiece is the distance from the center of rotation to the outermost surface of the workpiece being machined.ⓘ Outer Radius of Workpiece [R_o]			+10% -10%
✖Rotational Frequency of Spindle is the speed at which the spindle of a machine tool rotates during machining operations. It is typically measured in revolutions per minute.ⓘ Rotational Frequency of Spindle [ω_s]			+10% -10%
✖Taylor's Tool Life Exponent is a parameter used in tool life equations to describe the relationship between cutting speed and tool life in metal machining.ⓘ Taylor's Tool Life Exponent [n]			+10% -10%
✖Workpiece Radius Ratio refers to the ratio between the initial radius and the final radius of the workpiece being machined.ⓘ Workpiece Radius Ratio [R_w]			+10% -10%
✖Maximum Tool Life is the point at which a cutting tool reaches its limit in terms of usage before it becomes too worn, damaged, or otherwise unable to effectively perform its intended function.ⓘ Maximum Tool Life [T_max]			+10% -10%
✖Time to Change One Tool refers to the duration required to replace a cutting tool with another tool during a machining operation.ⓘ Time to Change One Tool [t_c]			+10% -10%

✖The Cost of a Tool refers to the expenses associated with acquiring and using cutting tools used in various machining operations.ⓘ Cost of 1 Tool given Optimum Spindle Speed [C_t]

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Cost of 1 Tool given Optimum Spindle Speed Solution

STEP 0: Pre-Calculation Summary

Formula Used

Cost of a Tool = (Machining and Operating Rate*(Reference Cutting Velocity/(2*pi*Outer Radius of Workpiece*Rotational Frequency of Spindle))^(1/Taylor's Tool Life Exponent)*((1+Taylor's Tool Life Exponent)/(1-Taylor's Tool Life Exponent))*((1-Workpiece Radius Ratio)/(1-Workpiece Radius Ratio^((Taylor's Tool Life Exponent+1)/Taylor's Tool Life Exponent)))*Maximum Tool Life)-Time to Change One Tool
C_t = (M*(V_ref/(2*pi*R_o*ω_s))^(1/n)*((1+n)/(1-n))*((1-R_w)/(1-R_w^((n+1)/n)))*T_max)-t_c
This formula uses 1 Constants, 9 Variables

Constants Used

pi - Archimedes' constant Value Taken As 3.14159265358979323846264338327950288

Variables Used

Cost of a Tool - The Cost of a Tool refers to the expenses associated with acquiring and using cutting tools used in various machining operations.
Machining and Operating Rate - Machining and Operating Rate is the money charged for processing on and operating machines per unit time, including overheads.
Reference Cutting Velocity - (Measured in Meter per Second) - Reference Cutting Velocity refers to a standard cutting speed used as a baseline or reference point for selecting appropriate cutting speeds for specific machining operations.
Outer Radius of Workpiece - (Measured in Meter) - Outer Radius of Workpiece is the distance from the center of rotation to the outermost surface of the workpiece being machined.
Rotational Frequency of Spindle - (Measured in Hertz) - Rotational Frequency of Spindle is the speed at which the spindle of a machine tool rotates during machining operations. It is typically measured in revolutions per minute.
Taylor's Tool Life Exponent - Taylor's Tool Life Exponent is a parameter used in tool life equations to describe the relationship between cutting speed and tool life in metal machining.
Workpiece Radius Ratio - Workpiece Radius Ratio refers to the ratio between the initial radius and the final radius of the workpiece being machined.
Maximum Tool Life - (Measured in Second) - Maximum Tool Life is the point at which a cutting tool reaches its limit in terms of usage before it becomes too worn, damaged, or otherwise unable to effectively perform its intended function.
Time to Change One Tool - (Measured in Second) - Time to Change One Tool refers to the duration required to replace a cutting tool with another tool during a machining operation.

STEP 1: Convert Input(s) to Base Unit

Machining and Operating Rate: 100 --> No Conversion Required
Reference Cutting Velocity: 5000 Millimeter per Minute --> 0.0833333333333333 Meter per Second (Check conversion here)
Outer Radius of Workpiece: 1000 Millimeter --> 1 Meter (Check conversion here)
Rotational Frequency of Spindle: 600 Revolution per Minute --> 10 Hertz (Check conversion here)
Taylor's Tool Life Exponent: 0.512942 --> No Conversion Required
Workpiece Radius Ratio: 0.45 --> No Conversion Required
Maximum Tool Life: 7000 Minute --> 420000 Second (Check conversion here)
Time to Change One Tool: 0.6 Minute --> 36 Second (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

C_t = (M*(V_ref/(2*pi*R_o*ω_s))^(1/n)*((1+n)/(1-n))*((1-R_w)/(1-R_w^((n+1)/n)))*T_max)-t_c --> (100*(0.0833333333333333/(2*pi*1*10))^(1/0.512942)*((1+0.512942)/(1-0.512942))*((1-0.45)/(1-0.45^((0.512942+1)/0.512942)))*420000)-36

Evaluating ... ...

C_t = 158.813118776906

STEP 3: Convert Result to Output's Unit

158.813118776906 --> No Conversion Required

FINAL ANSWER

158.813118776906 ≈ 158.8131 <-- Cost of a Tool

(Calculation completed in 00.020 seconds)

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Home » Engineering » Production Engineering » Metal Machining » Facing Operation » Machine Tools and Operations » Cutting Speed » Cost of 1 Tool given Optimum Spindle Speed

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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), Srinagar

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< Cutting Speed Calculators

Time for Facing given Instantaneous Cutting Speed

LaTeX Go Process Time = (Outer Radius of Workpiece-(Cutting Velocity/(2*pi*Rotational Frequency of Spindle)))/(Rotational Frequency of Spindle*Feed)

Reference Cutting Velocity given Rate of Increase of Wear-Land Width

LaTeX Go Reference Cutting Velocity = Cutting Velocity/((Rate of Increase of Wear Land Width*Reference Tool Life/Maximum Wear Land Width)^Taylor's Tool Life Exponent)

Cutting Velocity given Rate of Increase of Wear-Land Width

LaTeX Go Cutting Velocity = Reference Cutting Velocity*(Rate of Increase of Wear Land Width*Reference Tool Life/Maximum Wear Land Width)^Taylor's Tool Life Exponent

Instantaneous Cutting Speed

LaTeX Go Cutting Velocity = 2*pi*Rotational Frequency of Spindle*Instantaneous Radius for Cut

Cost of 1 Tool given Optimum Spindle Speed Formula

LaTeX Go

Significance of Cost of Tools Used

The Cost of Tools Used helps us in determining the maximum number of times a tool can be renewed during the production of a given batch of products. This renewing might include buying or resharpening the tool. Thus if the number of Tools to be used gets bounded, the machining operation would have to be optimized in order to give sufficient tool life to minimize the Total Cost of Production.

How to Calculate Cost of 1 Tool given Optimum Spindle Speed?

Cost of 1 Tool given Optimum Spindle Speed calculator uses Cost of a Tool = (Machining and Operating Rate*(Reference Cutting Velocity/(2*pi*Outer Radius of Workpiece*Rotational Frequency of Spindle))^(1/Taylor's Tool Life Exponent)*((1+Taylor's Tool Life Exponent)/(1-Taylor's Tool Life Exponent))*((1-Workpiece Radius Ratio)/(1-Workpiece Radius Ratio^((Taylor's Tool Life Exponent+1)/Taylor's Tool Life Exponent)))*Maximum Tool Life)-Time to Change One Tool to calculate the Cost of a Tool, The Cost of 1 Tool given Optimum Spindle Speed is a method to determine the maximum amount available to be spent on renewing the Machining Tool, such that the Production Cost is Minimum. The cost of one tool in metal machining can be calculated based on various factors, including the cost of the cutting tool itself, the machining parameters, and the production volume. The optimum spindle speed is one of the parameters that influences tool life and, subsequently, the cost of one tool. Cost of a Tool is denoted by C_t symbol.

How to calculate Cost of 1 Tool given Optimum Spindle Speed using this online calculator? To use this online calculator for Cost of 1 Tool given Optimum Spindle Speed, enter Machining and Operating Rate (M), Reference Cutting Velocity (V_ref), Outer Radius of Workpiece (R_o), Rotational Frequency of Spindle (ω_s), Taylor's Tool Life Exponent (n), Workpiece Radius Ratio (R_w), Maximum Tool Life (T_max) & Time to Change One Tool (t_c) and hit the calculate button. Here is how the Cost of 1 Tool given Optimum Spindle Speed calculation can be explained with given input values -> 158.8131 = (100*(0.0833333333333333/(2*pi*1*10))^(1/0.512942)*((1+0.512942)/(1-0.512942))*((1-0.45)/(1-0.45^((0.512942+1)/0.512942)))*420000)-36.

FAQ

What is Cost of 1 Tool given Optimum Spindle Speed?

The Cost of 1 Tool given Optimum Spindle Speed is a method to determine the maximum amount available to be spent on renewing the Machining Tool, such that the Production Cost is Minimum. The cost of one tool in metal machining can be calculated based on various factors, including the cost of the cutting tool itself, the machining parameters, and the production volume. The optimum spindle speed is one of the parameters that influences tool life and, subsequently, the cost of one tool and is represented as C_t = (M*(V_ref/(2*pi*R_o*ω_s))^(1/n)*((1+n)/(1-n))*((1-R_w)/(1-R_w^((n+1)/n)))*T_max)-t_c or Cost of a Tool = (Machining and Operating Rate*(Reference Cutting Velocity/(2*pi*Outer Radius of Workpiece*Rotational Frequency of Spindle))^(1/Taylor's Tool Life Exponent)*((1+Taylor's Tool Life Exponent)/(1-Taylor's Tool Life Exponent))*((1-Workpiece Radius Ratio)/(1-Workpiece Radius Ratio^((Taylor's Tool Life Exponent+1)/Taylor's Tool Life Exponent)))*Maximum Tool Life)-Time to Change One Tool. Machining and Operating Rate is the money charged for processing on and operating machines per unit time, including overheads, Reference Cutting Velocity refers to a standard cutting speed used as a baseline or reference point for selecting appropriate cutting speeds for specific machining operations, Outer Radius of Workpiece is the distance from the center of rotation to the outermost surface of the workpiece being machined, Rotational Frequency of Spindle is the speed at which the spindle of a machine tool rotates during machining operations. It is typically measured in revolutions per minute, Taylor's Tool Life Exponent is a parameter used in tool life equations to describe the relationship between cutting speed and tool life in metal machining, Workpiece Radius Ratio refers to the ratio between the initial radius and the final radius of the workpiece being machined, Maximum Tool Life is the point at which a cutting tool reaches its limit in terms of usage before it becomes too worn, damaged, or otherwise unable to effectively perform its intended function & Time to Change One Tool refers to the duration required to replace a cutting tool with another tool during a machining operation.

How to calculate Cost of 1 Tool given Optimum Spindle Speed?

The Cost of 1 Tool given Optimum Spindle Speed is a method to determine the maximum amount available to be spent on renewing the Machining Tool, such that the Production Cost is Minimum. The cost of one tool in metal machining can be calculated based on various factors, including the cost of the cutting tool itself, the machining parameters, and the production volume. The optimum spindle speed is one of the parameters that influences tool life and, subsequently, the cost of one tool is calculated using Cost of a Tool = (Machining and Operating Rate*(Reference Cutting Velocity/(2*pi*Outer Radius of Workpiece*Rotational Frequency of Spindle))^(1/Taylor's Tool Life Exponent)*((1+Taylor's Tool Life Exponent)/(1-Taylor's Tool Life Exponent))*((1-Workpiece Radius Ratio)/(1-Workpiece Radius Ratio^((Taylor's Tool Life Exponent+1)/Taylor's Tool Life Exponent)))*Maximum Tool Life)-Time to Change One Tool. To calculate Cost of 1 Tool given Optimum Spindle Speed, you need Machining and Operating Rate (M), Reference Cutting Velocity (V_ref), Outer Radius of Workpiece (R_o), Rotational Frequency of Spindle (ω_s), Taylor's Tool Life Exponent (n), Workpiece Radius Ratio (R_w), Maximum Tool Life (T_max) & Time to Change One Tool (t_c). With our tool, you need to enter the respective value for Machining and Operating Rate, Reference Cutting Velocity, Outer Radius of Workpiece, Rotational Frequency of Spindle, Taylor's Tool Life Exponent, Workpiece Radius Ratio, Maximum Tool Life & Time to Change One Tool 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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