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Rate of Heat Conduction into Tool given Total Rate of Heat Generation Formula

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Rate of Heat Conduction into The Tool is defined as the amount of heat transferred into the tool with conduction while metal cutting. Check FAQs
Φt=Pm-Φc-Φw
Φt - Rate of Heat Conduction into The Tool?Pm - Total Rate of Heat Generation in Metal Cutting?Φc - Rate of Heat Transportation By Chip?Φw - Rate of Heat Conduction into The Workpiece?

Rate of Heat Conduction into Tool given Total Rate of Heat Generation Example

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Here is how the Rate of Heat Conduction into Tool given Total Rate of Heat Generation equation looks like with Values.

Here is how the Rate of Heat Conduction into Tool given Total Rate of Heat Generation equation looks like with Units.

Here is how the Rate of Heat Conduction into Tool given Total Rate of Heat Generation equation looks like.

16Edit=108Edit-54Edit-38Edit
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HomeIcon Home » Category Engineering » Category Production Engineering » Category Metal Machining » fx Rate of Heat Conduction into Tool given Total Rate of Heat Generation

Rate of Heat Conduction into Tool given Total Rate of Heat Generation Solution

Follow our step by step solution on how to calculate Rate of Heat Conduction into Tool given Total Rate of Heat Generation?

FIRST Step Consider the formula
Φt=Pm-Φc-Φw
Next Step Substitute values of Variables
Φt=108W-54W-38W
Next Step Prepare to Evaluate
Φt=108-54-38
LAST Step Evaluate
Φt=16W

Rate of Heat Conduction into Tool given Total Rate of Heat Generation Formula Elements

Variables
Rate of Heat Conduction into The Tool
Rate of Heat Conduction into The Tool is defined as the amount of heat transferred into the tool with conduction while metal cutting.
Symbol: Φt
Measurement: PowerUnit: W
Note: Value should be greater than 0.
Formulas to find Rate of Heat Conduction into The ToolOpen Variable
Total Rate of Heat Generation in Metal Cutting
The Total Rate of Heat Generation in Metal Cutting is defined as the total amount of heat generated due to friction and disturbances & losses while metal cutting.
Symbol: Pm
Measurement: PowerUnit: W
Note: Value should be greater than 0.
Formulas to find Total Rate of Heat Generation in Metal CuttingOpen Variable
Rate of Heat Transportation By Chip
Rate of Heat Transportation By Chip is defined as the amount of heat transported by the chip.
Symbol: Φc
Measurement: PowerUnit: W
Note: Value should be greater than 0.
Formulas to find Rate of Heat Transportation By ChipOpen Variable
Rate of Heat Conduction into The Workpiece
Rate of Heat Conduction into The Workpiece is defined as the rate of heat transferred into the workpiece with conduction.
Symbol: Φw
Measurement: PowerUnit: W
Note: Value should be greater than 0.
Formulas to find Rate of Heat Conduction into The WorkpieceOpen Variable

Other formulas in Heat Conduction Rate category

​Go Rate of Heat Conduction into Workpiece given Total Rate of Heat Generation
Φw=Pm-Φc-Φt
​Go Rate of Heat Transportation by Chip given Total Rate of Heat Generation
Φc=Pm-Φw-Φt
​Go Rate of Energy Consumption using Rate of Heat Generation during Machining
Pc=Ps+Pf
​Go Rate of Heat Generation in Primary Deformation using Rate of Energy Consumption
Ps=Pc-Pf

How to Evaluate Rate of Heat Conduction into Tool given Total Rate of Heat Generation?

Rate of Heat Conduction into Tool given Total Rate of Heat Generation evaluator uses Rate of Heat Conduction into The Tool = Total Rate of Heat Generation in Metal Cutting-Rate of Heat Transportation By Chip-Rate of Heat Conduction into The Workpiece to evaluate the Rate of Heat Conduction into The Tool, The Rate of Heat conduction into tool given Total rate of Heat Generation is defined as the rate of heat transferred into the tool while the metal cutting process. Rate of Heat Conduction into The Tool is denoted by Φt symbol.

How to evaluate Rate of Heat Conduction into Tool given Total Rate of Heat Generation using this online evaluator? To use this online evaluator for Rate of Heat Conduction into Tool given Total Rate of Heat Generation, enter Total Rate of Heat Generation in Metal Cutting (Pm), Rate of Heat Transportation By Chip c) & Rate of Heat Conduction into The Workpiece w) and hit the calculate button.

FAQs on Rate of Heat Conduction into Tool given Total Rate of Heat Generation

What is the formula to find Rate of Heat Conduction into Tool given Total Rate of Heat Generation?
The formula of Rate of Heat Conduction into Tool given Total Rate of Heat Generation is expressed as Rate of Heat Conduction into The Tool = Total Rate of Heat Generation in Metal Cutting-Rate of Heat Transportation By Chip-Rate of Heat Conduction into The Workpiece. Here is an example- 16 = 108-54-38.
How to calculate Rate of Heat Conduction into Tool given Total Rate of Heat Generation?
With Total Rate of Heat Generation in Metal Cutting (Pm), Rate of Heat Transportation By Chip c) & Rate of Heat Conduction into The Workpiece w) we can find Rate of Heat Conduction into Tool given Total Rate of Heat Generation using the formula - Rate of Heat Conduction into The Tool = Total Rate of Heat Generation in Metal Cutting-Rate of Heat Transportation By Chip-Rate of Heat Conduction into The Workpiece.
Can the Rate of Heat Conduction into Tool given Total Rate of Heat Generation be negative?
No, the Rate of Heat Conduction into Tool given Total Rate of Heat Generation, measured in Power cannot be negative.
Which unit is used to measure Rate of Heat Conduction into Tool given Total Rate of Heat Generation?
Rate of Heat Conduction into Tool given Total Rate of Heat Generation is usually measured using the Watt[W] for Power. Kilowatt[W], Milliwatt[W], Microwatt[W] are the few other units in which Rate of Heat Conduction into Tool given Total Rate of Heat Generation can be measured.
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