Length-to-diameter Ratio in terms Initial weight of workpiece Calculator

✖Initial Work Piece Weight is defined as the weight of the work piece before undergoing machining operation.ⓘ Initial Work Piece Weight [W]

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✖Length to Diameter Ratio is the ratio of the flighted length of the screw to its outside diameter.ⓘ Length-to-diameter Ratio in terms Initial weight of workpiece [l_r]

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Formula

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Length-to-diameter Ratio in terms Initial weight of workpiece

Formula

`"l"_{"r"} = 1.26/("W"^0.29)`

Example

`"0.601561"=1.26/(("12.79999kg")^0.29)`

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Length-to-diameter Ratio in terms Initial weight of workpiece Solution

STEP 0: Pre-Calculation Summary

Formula Used

Length to Diameter Ratio = 1.26/(Initial Work Piece Weight^0.29)
l_r = 1.26/(W^0.29)
This formula uses 2 Variables

Variables Used

Length to Diameter Ratio - Length to Diameter Ratio is the ratio of the flighted length of the screw to its outside diameter.
Initial Work Piece Weight - (Measured in Kilogram) - Initial Work Piece Weight is defined as the weight of the work piece before undergoing machining operation.

STEP 1: Convert Input(s) to Base Unit

Initial Work Piece Weight: 12.79999 Kilogram --> 12.79999 Kilogram No Conversion Required

STEP 2: Evaluate Formula

Substituting Input Values in Formula

l_r = 1.26/(W^0.29) --> 1.26/(12.79999^0.29)

Evaluating ... ...

l_r = 0.601561110406362

STEP 3: Convert Result to Output's Unit

0.601561110406362 --> No Conversion Required

FINAL ANSWER

0.601561110406362 ≈ 0.601561 <-- Length to Diameter Ratio

(Calculation completed in 00.004 seconds)

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Created by Parul Keshav

National Institute of Technology (NIT), Srinagar

Parul Keshav has created this Calculator and 300+ more calculators!

Verified by Rajat Vishwakarma

University Institute of Technology RGPV (UIT - RGPV), Bhopal

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< 19 Initial Weight of Workpiece Calculators

Initial weight of workpiece given Total rate for Machining and Operator

Go Initial Work Piece Weight = ((Total Rate of Machining and Operator-(Factor to Allow For Operator*Direct Labor Rate))*(2*Amortized Years*Number of Shifts)/(Constant For Tool Type(e)*Factor to Allow For Machining))^(1/Constant for Tool Type(f))

Direct labour Rate given Total rate for Machining and Operator

Go Direct Labor Rate = (Total Rate of Machining and Operator-((Factor to Allow For Machining*Constant For Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f))/(2*Amortized Years*Number of Shifts)))/Factor to Allow For Operator

Total rate for Machining and Operator

Go Total Rate of Machining and Operator = ((Factor to Allow For Machining*Constant For Tool Type(e)*Initial Work Piece Weight^Constant for Tool Type(f))/(2*Amortized Years*Number of Shifts))+(Factor to Allow For Operator*Direct Labor Rate)

Initial weight of workpiece given Machining time for maximum power

Go Initial Work Piece Weight = ((Density of Work Piece*Constant For Tool Type(a)*Machining Time For Maximum Power)/(Proportion of Initial Volume*Specific Cutting Energy in Machining))^(1/(1-Constant For Tool Type(b)))

Proportion of Initial Volume of workpiece to be removed given Initial weight of workpiece

Go Proportion of Initial Volume = (Machining Time For Maximum Power*Density of Work Piece*Constant For Tool Type(a))/(Specific Cutting Energy in Machining*Initial Work Piece Weight^(1-Constant For Tool Type(b)))

Specific cutting energy given Initial weight of workpiece

Go Specific Cutting Energy in Machining = (Machining Time For Maximum Power*Density of Work Piece*Constant For Tool Type(a))/(Proportion of Initial Volume*Initial Work Piece Weight^(1-Constant For Tool Type(b)))

Density of Workpiece given Initial weight of workpiece

Go Density of Work Piece = (Proportion of Initial Volume*Specific Cutting Energy in Machining*Initial Work Piece Weight^(1-Constant For Tool Type(b)))/(Machining Time For Maximum Power*Constant For Tool Type(a))

Length of Workpiece given Machining time for maximum power

Go Length of Workpiece = (Machining Time For Maximum Power*Power Available For Machining)/(Specific Cutting Energy in Machining*pi*Diameter of Workpiece*Depth of Cut)

Constant for machine type b given Power available for Machining

Go Constant For Tool Type(b) = (ln(Power Available For Machining/Constant For Tool Type(a)))/(ln(Initial Work Piece Weight))

Power available for Machining given Initial weight of workpiece

Go Power Available For Machining = Constant Power For Tool Type(a)*(Initial Work Piece Weight)^Constant For Tool Type(b)

Initial weight of workpiece given Cost of Machine tool

Go Initial Work Piece Weight For Machine Tool = (Cost of A Tool/Constant For Tool Type(e))^(1/Constant for Tool Type(f))

Initial weight of workpiece given Power available for Machining

Go Initial Work Piece Weight = (Power Available For Machining/Constant For Tool Type(a))^(1/Constant For Tool Type(b))

Constant for machine type given Power available for Machining

Go Constant For Tool Type(a) = Power Available For Machining/(Initial Work Piece Weight)^Constant For Tool Type(b)

Loading and Unloading time given initial weight of workpiece

Go Loading And Unloading Time = Constant For Tool Type(c)+(Constant For Tool Type(d)*Initial Work Piece Weight)

Initial weight of workpiece given Loading and Unloading time

Go Initial Work Piece Weight = (Loading And Unloading Time-Constant For Tool Type(c))/Constant For Tool Type(d)

Surface area of Workpiece given Surface Generation rate

Go Surface Area of Workpiece = (Machining Surface Generation Time For Minimum Cost*Surface Generation Rate)

Initial weight of workpiece given Machining time under Max power for free machining

Go Initial Work Piece Weight For Free Machining = (Machining Time For Maximum Power/49.9)^(1/0.47)

Initial weight of workpiece given Length-to-diameter Ratio

Go Initial Work Piece Weight = (1.26/Length to Diameter Ratio)^(1/0.29)

Length-to-diameter Ratio in terms Initial weight of workpiece

Go Length to Diameter Ratio = 1.26/(Initial Work Piece Weight^0.29)

Length-to-diameter Ratio in terms Initial weight of workpiece Formula

Length to Diameter Ratio = 1.26/(Initial Work Piece Weight^0.29)
l_r = 1.26/(W^0.29)

Why reaming is done?

The rotary cutting tool used in reaming is known as a reamer. However, reamers remove significantly less material than drill bits. The primary purpose of reaming is simply to create smooth walls in an existing hole. Manufacturing companies perform reaming using a milling machine or drill press.

How to Calculate Length-to-diameter Ratio in terms Initial weight of workpiece?

Length-to-diameter Ratio in terms Initial weight of workpiece calculator uses Length to Diameter Ratio = 1.26/(Initial Work Piece Weight^0.29) to calculate the Length to Diameter Ratio, The Length-to-diameter Ratio in terms Initial weight of workpieceis the ratio of the flighted length of the screw to its outside diameter. Length to Diameter Ratio is denoted by l_r symbol.

How to calculate Length-to-diameter Ratio in terms Initial weight of workpiece using this online calculator? To use this online calculator for Length-to-diameter Ratio in terms Initial weight of workpiece, enter Initial Work Piece Weight (W) and hit the calculate button. Here is how the Length-to-diameter Ratio in terms Initial weight of workpiece calculation can be explained with given input values -> 0.601561 = 1.26/(12.79999^0.29).

FAQ

What is Length-to-diameter Ratio in terms Initial weight of workpiece?

The Length-to-diameter Ratio in terms Initial weight of workpieceis the ratio of the flighted length of the screw to its outside diameter and is represented as l_r = 1.26/(W^0.29) or Length to Diameter Ratio = 1.26/(Initial Work Piece Weight^0.29). Initial Work Piece Weight is defined as the weight of the work piece before undergoing machining operation.

How to calculate Length-to-diameter Ratio in terms Initial weight of workpiece?

The Length-to-diameter Ratio in terms Initial weight of workpieceis the ratio of the flighted length of the screw to its outside diameter is calculated using Length to Diameter Ratio = 1.26/(Initial Work Piece Weight^0.29). To calculate Length-to-diameter Ratio in terms Initial weight of workpiece, you need Initial Work Piece Weight (W). With our tool, you need to enter the respective value for Initial Work Piece Weight 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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