FormulaDen.com
Physics
Chemistry
Math
Chemical Engineering
Civil
Electrical
Electronics
Electronics and Instrumentation
Materials Science
Mechanical
Production Engineering
Financial
Health
You are here
-
Home
»
Engineering
»
Production Engineering
»
Metal Machining
Taylor's Tool Life Exponent in Production Cost Formulas
Taylor’s Tool Life Exponent is an experimental exponent that helps in quantifying the rate of Tool Wear. And is denoted by n.
Production Cost formulas that make use of Taylor's Tool Life Exponent
f
x
Cutting Velocity for Minimum Production Cost
Go
f
x
Reference Cutting Velocity given Cutting Velocity
Go
f
x
Reference Tool Life given Cutting Velocity
Go
f
x
Tool Changing Time for each Tool given Cutting Velocity
Go
f
x
Cost to change One Tool given Cutting Velocity
Go
f
x
Cutting Velocity for Minimum Production Cost given Tool Changing Cost
Go
f
x
Tool Life for Minimum Production Cost
Go
f
x
Tool Changing Time for each Tool given Tool Life and tool cost
Go
f
x
Cost of One Tool given Tool Life
Go
f
x
Machining and Operating Rate using Minimum Production Cost and Minimum Production time
Go
f
x
Cost to change One Tool given Tool Life
Go
f
x
Tool Life for Minimum Production Cost given Tool Changing Cost
Go
f
x
Cost of One Tool for Minimum Production Cost given cutting speed
Go
f
x
Cost of One Tool for Minimum Production Cost given Tool Changing Cost
Go
f
x
Machining and Operating Rate if cost of changing tool is also considered
Go
FAQ
What is the Taylor's Tool Life Exponent?
Taylor’s Tool Life Exponent is an experimental exponent that helps in quantifying the rate of Tool Wear.
Can the Taylor's Tool Life Exponent be negative?
{YesorNo}, the Taylor's Tool Life Exponent, measured in {OutputVariableMeasurementName} {CanorCannot} be negative.
Let Others Know
✖
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!