## Machining time given tool life and distance moved by tool corner Solution

STEP 0: Pre-Calculation Summary
Formula Used
Machining Time = ((Tool Life/Reference Tool Life)^Taylor's Tool Life Exponent)*Constant For Machining Condition/Cutting Speed
tm = ((T/Tref)^n)*K/Vcutting
This formula uses 6 Variables
Variables Used
Machining Time - (Measured in Second) - Machining Time is the time when a machine is actually processing something. Generally, machining time is the term used when there is a removal of unwanted material.
Tool Life - (Measured in Second) - Tool Life is the period of time for which the cutting edge, affected by the cutting procedure, retains its cutting capacity between sharpening operations.
Reference Tool Life - (Measured in Second) - Reference Tool Life is the Tool Life of the tool obtained in the reference Machining Condition.
Taylor's Tool Life Exponent - Taylor's Tool Life Exponent is an experimental exponent that helps in quantifying the rate of Tool Wear.
Constant For Machining Condition - (Measured in Meter) - Constant For Machining Condition can be regarded as the distance moved by the tool corner relative to the workpiece during a particular machining condition. It is usually measured in "Metre".
Cutting Speed - (Measured in Meter per Second) - Cutting Speed is defined as the speed at which the work moves with respect to the tool (usually measured in feet per minute).
STEP 1: Convert Input(s) to Base Unit
Tool Life: 52.08 Second --> 52.08 Second No Conversion Required
Reference Tool Life: 60 Second --> 60 Second No Conversion Required
Taylor's Tool Life Exponent: 0.125 --> No Conversion Required
Constant For Machining Condition: 186.0331 Meter --> 186.0331 Meter No Conversion Required
Cutting Speed: 0.49 Meter per Second --> 0.49 Meter per Second No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
tm = ((T/Tref)^n)*K/Vcutting --> ((52.08/60)^0.125)*186.0331/0.49
Evaluating ... ...
tm = 373.000237811227
STEP 3: Convert Result to Output's Unit
373.000237811227 Second --> No Conversion Required
373.000237811227 Second <-- Machining Time
(Calculation completed in 00.051 seconds)
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Created by Parul Keshav
National Institute of Technology (NIT), Srinagar
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Indian Institute of Information Technology, Design and Manufacturing (IIITDM), Jabalpur
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## < 5 Manufacturing Systems and Automations Calculators

Reference tool life given distance moved by tool corner

## Reference tool life given distance moved by tool corner

Formula
"T"_{"ref"} = "T"/(("V"_{"cutting"}*"t"_{"m"}/"K")^(1/"n"))

Example
"60.00031s"="52.08s"/(("0.49m/s"*"373s"/"186.0331m")^(1/"0.125"))

Calculator
LaTeX
Reference Tool Life = Tool Life/((Cutting Speed*Machining Time/Constant For Machining Condition)^(1/Taylor's Tool Life Exponent))
Tool life given distance moved by tool corner

## Tool life given distance moved by tool corner

Formula
"T" = "T"_{"ref"}*("V"_{"cutting"}*"t"_{"m"}/"K")^(1/"n")

Example
"52.07973s"="60s"*("0.49m/s"*"373s"/"186.0331m")^(1/"0.125")

Calculator
LaTeX
Tool Life = Reference Tool Life*(Cutting Speed*Machining Time/Constant For Machining Condition)^(1/Taylor's Tool Life Exponent)
Reference cutting speed given tool life and distance moved by tool corner

## Reference cutting speed given tool life and distance moved by tool corner

Formula
"V"_{"cutting"} = (("T"/"T"_{"ref"})^"n")*"K"/"t"_{"m"}

Example
"0.49m/s"=(("52.08s"/"60s")^"0.125")*"186.0331m"/"373s"

Calculator
LaTeX
Cutting Speed = ((Tool Life/Reference Tool Life)^Taylor's Tool Life Exponent)*Constant For Machining Condition/Machining Time
Machining time given tool life and distance moved by tool corner

## Machining time given tool life and distance moved by tool corner

Formula
"t"_{"m"} = (("T"/"T"_{"ref"})^"n")*"K"/"V"_{"cutting"}

Example
"373.0002s"=(("52.08s"/"60s")^"0.125")*"186.0331m"/"0.49m/s"

Calculator
LaTeX
Machining Time = ((Tool Life/Reference Tool Life)^Taylor's Tool Life Exponent)*Constant For Machining Condition/Cutting Speed
Distance moved by tool corner given tool life and machining time

## Distance moved by tool corner given tool life and machining time

Formula
"K" = (("T"_{"ref"}/"T")^"n")*"t"_{"m"}*"V"_{"cutting"}

Example
"186.033m"=(("60s"/"52.08s")^"0.125")*"373s"*"0.49m/s"

Calculator
LaTeX
Constant For Machining Condition = ((Reference Tool Life/Tool Life)^Taylor's Tool Life Exponent)*Machining Time*Cutting Speed

## Machining time given tool life and distance moved by tool corner Formula

Machining Time = ((Tool Life/Reference Tool Life)^Taylor's Tool Life Exponent)*Constant For Machining Condition/Cutting Speed
tm = ((T/Tref)^n)*K/Vcutting

## Rotary transfer machine

A rotary transfer machine is a machine tool, typically for metal working by machining, comprising a large indexing table with machining stations surrounding the table. Such rotary transfer machines are used for producing a large number of parts in fairly short cycle times.

## How to Calculate Machining time given tool life and distance moved by tool corner?

Machining time given tool life and distance moved by tool corner calculator uses Machining Time = ((Tool Life/Reference Tool Life)^Taylor's Tool Life Exponent)*Constant For Machining Condition/Cutting Speed to calculate the Machining Time, The Machining time given tool life and distance moved by tool corner is the time when a machine is actually processing something. Generally, machining time is the term used when there is a removal of unwanted material. Machining Time is denoted by tm symbol.

How to calculate Machining time given tool life and distance moved by tool corner using this online calculator? To use this online calculator for Machining time given tool life and distance moved by tool corner, enter Tool Life (T), Reference Tool Life (Tref), Taylor's Tool Life Exponent (n), Constant For Machining Condition (K) & Cutting Speed (Vcutting) and hit the calculate button. Here is how the Machining time given tool life and distance moved by tool corner calculation can be explained with given input values -> 373.0002 = ((52.08/60)^0.125)*186.0331/0.49.

### FAQ

What is Machining time given tool life and distance moved by tool corner?
The Machining time given tool life and distance moved by tool corner is the time when a machine is actually processing something. Generally, machining time is the term used when there is a removal of unwanted material and is represented as tm = ((T/Tref)^n)*K/Vcutting or Machining Time = ((Tool Life/Reference Tool Life)^Taylor's Tool Life Exponent)*Constant For Machining Condition/Cutting Speed. Tool Life is the period of time for which the cutting edge, affected by the cutting procedure, retains its cutting capacity between sharpening operations, Reference Tool Life is the Tool Life of the tool obtained in the reference Machining Condition, Taylor's Tool Life Exponent is an experimental exponent that helps in quantifying the rate of Tool Wear, Constant For Machining Condition can be regarded as the distance moved by the tool corner relative to the workpiece during a particular machining condition. It is usually measured in "Metre" & Cutting Speed is defined as the speed at which the work moves with respect to the tool (usually measured in feet per minute).
How to calculate Machining time given tool life and distance moved by tool corner?
The Machining time given tool life and distance moved by tool corner is the time when a machine is actually processing something. Generally, machining time is the term used when there is a removal of unwanted material is calculated using Machining Time = ((Tool Life/Reference Tool Life)^Taylor's Tool Life Exponent)*Constant For Machining Condition/Cutting Speed. To calculate Machining time given tool life and distance moved by tool corner, you need Tool Life (T), Reference Tool Life (Tref), Taylor's Tool Life Exponent (n), Constant For Machining Condition (K) & Cutting Speed (Vcutting). With our tool, you need to enter the respective value for Tool Life, Reference Tool Life, Taylor's Tool Life Exponent, Constant For Machining Condition & Cutting Speed 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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