FormulaDen.com

Physics Chemistry Math Chemical Engineering Civil Electrical Electronics Electronics and Instrumentation Materials Science Mechanical Production Engineering Financial Health

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Formula

Fx Copy

LaTeX Copy

Feed Rate is defined as the tool's distance travelled during one spindle revolution. Check FAQs

f = {(\frac{C}{V \cdot (d^{b}) \cdot (L^{y})})}^{\frac{1}{a}}

f - Feed Rate?C - Taylor's Constant?V - Cutting Velocity?d - Depth of Cut?b - Taylor's Exponent for Depth of Cut?L - Tool Life in Taylors Theory?y - Taylor Tool Life Exponent?a - Taylor's Exponent for Feed Rate in Taylors Theory?

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Example

With values

With units

Only example

Here is how the Feed given Taylor's Tool Life, Cutting Velocity, and Intercept equation looks like with Values.

Here is how the Feed given Taylor's Tool Life, Cutting Velocity, and Intercept equation looks like with Units.

Here is how the Feed given Taylor's Tool Life, Cutting Velocity, and Intercept equation looks like.

0.8934 = {(\frac{85.1306}{0.8333 \cdot ({0.013}^{0.24}) \cdot ({1.18}^{0.8466})})}^{\frac{1}{0.2}}

0.8934mm/rev = {(\frac{85.1306}{0.8333m/s \cdot ({0.013m}^{0.24}) \cdot ({1.18h}^{0.8466})})}^{\frac{1}{0.2}}

0.8934 = {(\frac{85.1306}{0.8333 \cdot ({0.013}^{0.24}) \cdot ({1.18}^{0.8466})})}^{\frac{1}{0.2}}

Tip: Use pencil ( Pencil

) icon above to edit Input Values and Units.

Calculate

Recalculate

Solution

Copy

Reset

You are here -

Home » Category

Engineering » Category

Production Engineering » Category

Metal Machining » fx Feed given Taylor's Tool Life, Cutting Velocity, and Intercept

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Solution

Follow our step by step solution on how to calculate Feed given Taylor's Tool Life, Cutting Velocity, and Intercept?

FIRST Step Consider the formula

f = {(\frac{C}{V \cdot (d^{b}) \cdot (L^{y})})}^{\frac{1}{a}}

Next Step Substitute values of Variables

∴

f = {(\frac{85.1306}{0.8333m/s \cdot ({0.013m}^{0.24}) \cdot ({1.18h}^{0.8466})})}^{\frac{1}{0.2}}

Next Step Convert Units

∴

f = {(\frac{85.1306}{0.8333m/s \cdot ({0.013m}^{0.24}) \cdot ({4248s}^{0.8466})})}^{\frac{1}{0.2}}

Next Step Prepare to Evaluate

∴

f = {(\frac{85.1306}{0.8333 \cdot ({0.013}^{0.24}) \cdot (4248^{0.8466})})}^{\frac{1}{0.2}}

Next Step Evaluate

∴

f = 0.000893419919827767m/rev

Next Step Convert to Output's Unit

∴

f = 0.893419919827767mm/rev

LAST Step Rounding Answer

∴

f = 0.8934mm/rev

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Formula Elements

Variables

Feed Rate

Feed Rate is defined as the tool's distance travelled during one spindle revolution.

Symbol: f

Measurement: FeedUnit: mm/rev

Note: Value should be greater than 0.

Formulas to find Feed Rate

Taylor's Constant

Taylor's Constant is an experimental constant that depends mainly upon the tool-work materials and the cutting environment.

Symbol: C

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Taylor's Constant

Cutting Velocity

Cutting Velocity is the velocity at the periphery of the cutter or workpiece (whichever is rotating).

Symbol: V

Measurement: SpeedUnit: m/s

Note: Value should be greater than 0.

Formulas to find Cutting Velocity

Depth of Cut

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.

Symbol: d

Measurement: LengthUnit: m

Note: Value should be greater than 0.

Formulas to find Depth of Cut

Taylor's Exponent for Depth of Cut

Taylor's Exponent for Depth of Cut is an experimental exponent used to draw a relation between the depth of cut to workpiece and tool life.

Symbol: b

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Taylor's Exponent for Depth of Cut

Tool Life in Taylors Theory

Tool Life in Taylors Theory is the period of time for which the cutting edge, affected by the cutting procedure, retains its cutting capacity between sharpening operations.

Symbol: L

Measurement: TimeUnit: h

Note: Value should be greater than 0.

Formulas to find Tool Life in Taylors Theory

Taylor Tool Life Exponent

Taylor Tool Life Exponent is an experimental exponent that helps in quantifying the rate of tool wear.

Symbol: y

Measurement: NAUnit: Unitless

Note: Value should be between 0 to 1.

Formulas to find Taylor Tool Life Exponent

Taylor's Exponent for Feed Rate in Taylors Theory

Taylor's Exponent for Feed Rate in Taylors Theory is an experimental exponent used to draw a relation between feed rate to workpiece and tool life.

Symbol: a

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Taylor's Exponent for Feed Rate in Taylors Theory

Other formulas in Taylor's Theory category

Go Taylor's Tool Life given Cutting Velocity and Intercept

T tl = {(\frac{C}{V})}^{\frac{1}{y}}

Go Taylor's Exponent if Ratios of Cutting Velocities, Tool Lives are given in Two Machining Conditions

y = (- 1) \cdot \frac{\ln (R v)}{\ln (R l)}

How to Evaluate Feed given Taylor's Tool Life, Cutting Velocity, and Intercept?

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept evaluator uses Feed Rate = (Taylor's Constant/(Cutting Velocity*(Depth of Cut^Taylor's Exponent for Depth of Cut)*(Tool Life in Taylors Theory^Taylor Tool Life Exponent)))^(1/Taylor's Exponent for Feed Rate in Taylors Theory) to evaluate the Feed Rate, The Feed given Taylor's Tool Life, Cutting Velocity, and Intercept is a method to determine the maximum Feed that can be applied on the Workpiece to get a specified Tool Life under a given Cutting Velocity. Feed Rate is denoted by f symbol.

How to evaluate Feed given Taylor's Tool Life, Cutting Velocity, and Intercept using this online evaluator? To use this online evaluator for Feed given Taylor's Tool Life, Cutting Velocity, and Intercept, enter Taylor's Constant (C), Cutting Velocity (V), Depth of Cut (d), Taylor's Exponent for Depth of Cut (b), Tool Life in Taylors Theory (L), Taylor Tool Life Exponent (y) & Taylor's Exponent for Feed Rate in Taylors Theory (a) and hit the calculate button.

FAQs on Feed given Taylor's Tool Life, Cutting Velocity, and Intercept

What is the formula to find Feed given Taylor's Tool Life, Cutting Velocity, and Intercept?

The formula of Feed given Taylor's Tool Life, Cutting Velocity, and Intercept is expressed as Feed Rate = (Taylor's Constant/(Cutting Velocity*(Depth of Cut^Taylor's Exponent for Depth of Cut)*(Tool Life in Taylors Theory^Taylor Tool Life Exponent)))^(1/Taylor's Exponent for Feed Rate in Taylors Theory). Here is an example- 893.4199 = (85.13059/(0.833333*(0.013^0.24)*(4248^0.8466244)))^(1/0.2).

How to calculate Feed given Taylor's Tool Life, Cutting Velocity, and Intercept?

With Taylor's Constant (C), Cutting Velocity (V), Depth of Cut (d), Taylor's Exponent for Depth of Cut (b), Tool Life in Taylors Theory (L), Taylor Tool Life Exponent (y) & Taylor's Exponent for Feed Rate in Taylors Theory (a) we can find Feed given Taylor's Tool Life, Cutting Velocity, and Intercept using the formula - Feed Rate = (Taylor's Constant/(Cutting Velocity*(Depth of Cut^Taylor's Exponent for Depth of Cut)*(Tool Life in Taylors Theory^Taylor Tool Life Exponent)))^(1/Taylor's Exponent for Feed Rate in Taylors Theory).

Can the Feed given Taylor's Tool Life, Cutting Velocity, and Intercept be negative?

No, the Feed given Taylor's Tool Life, Cutting Velocity, and Intercept, measured in Feed cannot be negative.

Which unit is used to measure Feed given Taylor's Tool Life, Cutting Velocity, and Intercept?

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept is usually measured using the Millimeter Per Revolution[mm/rev] for Feed. Meter Per Revolution[mm/rev] are the few other units in which Feed given Taylor's Tool Life, Cutting Velocity, and Intercept can be measured.

Let Others Know

✖

Facebook

Twitter

Copied!

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Formula

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Example

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Solution

Feed given Taylor's Tool Life, Cutting Velocity, and Intercept Formula Elements

Other formulas in Taylor's Theory category

How to Evaluate Feed given Taylor's Tool Life, Cutting Velocity, and Intercept?

FAQs on Feed given Taylor's Tool Life, Cutting Velocity, and Intercept

Variable Name