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Maximum Temperature rise in Chip in Secondary deformation zone Formula

GoMaximum temperature in secondary deformation zone Formula

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Max temp in chip in secondary deformation zone is defined as the maximum amount of heat up to which chip can reach. Check FAQs

θ max = θ f \cdot 1.13 \cdot \sqrt{\frac{R}{l 0}}

θ_max - Max Temp in Chip in Secondary Deformation Zone?θ_f - Average Temp Rise of Chip in Secondary Shear Zone?R - Thermal Number?l₀ - Length of Heat Source Per Chip Thickness?

Maximum Temperature rise in Chip in Secondary deformation zone Example

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Here is how the Maximum Temperature rise in Chip in Secondary deformation zone equation looks like with Values.

Here is how the Maximum Temperature rise in Chip in Secondary deformation zone equation looks like with Units.

Here is how the Maximum Temperature rise in Chip in Secondary deformation zone equation looks like.

668.9999 = 88.5 \cdot 1.13 \cdot \sqrt{\frac{41.5}{0.9273}}

668.9999°C = 88.5°C \cdot 1.13 \cdot \sqrt{\frac{41.5}{0.9273}}

668.9999 = 88.5 \cdot 1.13 \cdot \sqrt{\frac{41.5}{0.9273}}

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Maximum Temperature rise in Chip in Secondary deformation zone Solution

Follow our step by step solution on how to calculate Maximum Temperature rise in Chip in Secondary deformation zone?

FIRST Step Consider the formula

θ max = θ f \cdot 1.13 \cdot \sqrt{\frac{R}{l 0}}

Next Step Substitute values of Variables

∴

θ max = 88.5°C \cdot 1.13 \cdot \sqrt{\frac{41.5}{0.9273}}

Next Step Convert Units

∴

θ max = 88.5K \cdot 1.13 \cdot \sqrt{\frac{41.5}{0.9273}}

Next Step Prepare to Evaluate

∴

θ max = 88.5 \cdot 1.13 \cdot \sqrt{\frac{41.5}{0.9273}}

Next Step Evaluate

∴

θ max = 942.149867612939K

Next Step Convert to Output's Unit

∴

θ max = 668.999867612939°C

LAST Step Rounding Answer

∴

θ max = 668.9999°C

Maximum Temperature rise in Chip in Secondary deformation zone Formula Elements

Variables

Functions

Max Temp in Chip in Secondary Deformation Zone

Max temp in chip in secondary deformation zone is defined as the maximum amount of heat up to which chip can reach.

Symbol: θ_max

Measurement: TemperatureUnit: °C

Note: Value should be greater than 0.

Formulas to find Max Temp in Chip in Secondary Deformation Zone

Average Temp Rise of Chip in Secondary Shear Zone

The Average Temp Rise of Chip in Secondary Shear Zone is defined as the amount of temperature rise in the secondary shear zone.

Symbol: θ_f

Measurement: Temperature DifferenceUnit: °C

Note: Value should be greater than 0.

Formulas to find Average Temp Rise of Chip in Secondary Shear Zone

Thermal Number

Thermal number refers to a specific dimensionless number used to analyze and predict the temperature distribution and heat generation during the cutting process.

Symbol: R

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Thermal Number

Length of Heat Source Per Chip Thickness

Length of Heat Source Per Chip Thickness is defined as the ratio of heat source divided by the chip thickness.

Symbol: l₀

Measurement: NAUnit: Unitless

Note: Value should be greater than 0.

Formulas to find Length of Heat Source Per Chip Thickness

sqrt

A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.

Syntax: sqrt(Number)

Other Formulas to find Max Temp in Chip in Secondary Deformation Zone

Go Maximum temperature in secondary deformation zone

θ max = θ m + θ s + θ 0

Other formulas in Temperature Rise category

Go Average Temperature Rise of Material under Primary Deformation Zone

θ avg = \frac{(1 - Γ) \cdot P s}{ρ wp \cdot C \cdot V cut \cdot a c \cdot d cut}

Go Density of Material using Average Temperature Rise of material under Primary Shear Zone

ρ wp = \frac{(1 - Γ) \cdot P s}{θ avg \cdot C \cdot V cut \cdot a c \cdot d cut}

Go Specific Heat given Average Temperature Rise of Material under Primary Shear Zone

C = \frac{(1 - Γ) \cdot P s}{ρ wp \cdot θ avg \cdot V cut \cdot a c \cdot d cut}

Go Cutting Speed given Average Temperature Rise of Material under Primary Shear Zone

V cut = \frac{(1 - Γ) \cdot P s}{ρ wp \cdot C \cdot θ avg \cdot a c \cdot d cut}

How to Evaluate Maximum Temperature rise in Chip in Secondary deformation zone?

Maximum Temperature rise in Chip in Secondary deformation zone evaluator uses Max Temp in Chip in Secondary Deformation Zone = Average Temp Rise of Chip in Secondary Shear Zone*1.13*sqrt(Thermal Number/Length of Heat Source Per Chip Thickness) to evaluate the Max Temp in Chip in Secondary Deformation Zone, The maximum temperature rise in chip in secondary deformation zone is defined as the maximum amount of temperature rise of the chip in the secondary deformation zone. Max Temp in Chip in Secondary Deformation Zone is denoted by θ_max symbol.

How to evaluate Maximum Temperature rise in Chip in Secondary deformation zone using this online evaluator? To use this online evaluator for Maximum Temperature rise in Chip in Secondary deformation zone, enter Average Temp Rise of Chip in Secondary Shear Zone (θ_f), Thermal Number (R) & Length of Heat Source Per Chip Thickness (l₀) and hit the calculate button.

FAQs on Maximum Temperature rise in Chip in Secondary deformation zone

What is the formula to find Maximum Temperature rise in Chip in Secondary deformation zone?

The formula of Maximum Temperature rise in Chip in Secondary deformation zone is expressed as Max Temp in Chip in Secondary Deformation Zone = Average Temp Rise of Chip in Secondary Shear Zone*1.13*sqrt(Thermal Number/Length of Heat Source Per Chip Thickness). Here is an example- 405.9356 = 88.5*1.13*sqrt(41.5/0.927341).

How to calculate Maximum Temperature rise in Chip in Secondary deformation zone?

With Average Temp Rise of Chip in Secondary Shear Zone (θ_f), Thermal Number (R) & Length of Heat Source Per Chip Thickness (l₀) we can find Maximum Temperature rise in Chip in Secondary deformation zone using the formula - Max Temp in Chip in Secondary Deformation Zone = Average Temp Rise of Chip in Secondary Shear Zone*1.13*sqrt(Thermal Number/Length of Heat Source Per Chip Thickness). This formula also uses Square Root (sqrt) function(s).

What are the other ways to Calculate Max Temp in Chip in Secondary Deformation Zone?

Here are the different ways to Calculate Max Temp in Chip in Secondary Deformation Zone-

Max Temp in Chip in Secondary Deformation Zone=Temperature Rise in Secondary Deformation+Temperature Rise in Primary Deformation+Initial Workpiece Temperature

Can the Maximum Temperature rise in Chip in Secondary deformation zone be negative?

No, the Maximum Temperature rise in Chip in Secondary deformation zone, measured in Temperature cannot be negative.

Which unit is used to measure Maximum Temperature rise in Chip in Secondary deformation zone?

Maximum Temperature rise in Chip in Secondary deformation zone is usually measured using the Celsius[°C] for Temperature. Kelvin[°C], Fahrenheit[°C], Rankine[°C] are the few other units in which Maximum Temperature rise in Chip in Secondary deformation zone can be measured.

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Maximum Temperature rise in Chip in Secondary deformation zone Formula

​GoMaximum temperature in secondary deformation zone Formula

Maximum Temperature rise in Chip in Secondary deformation zone Example

Maximum Temperature rise in Chip in Secondary deformation zone Solution

Maximum Temperature rise in Chip in Secondary deformation zone Formula Elements

Other Formulas to find Max Temp in Chip in Secondary Deformation Zone

Other formulas in Temperature Rise category

How to Evaluate Maximum Temperature rise in Chip in Secondary deformation zone?

FAQs on Maximum Temperature rise in Chip in Secondary deformation zone

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GoMaximum temperature in secondary deformation zone Formula