Composition Factor from Fluidity Spiral Length Calculator

✖Fluidity Spiral length is measured for the fluidity which is represented by the length of the spiral solidified.ⓘ Fluidity spiral length [L_F.S]			+10% -10%
✖Pouring temperature of molten metal is the temperature of the molten metal during pouring.ⓘ Pouring Temperature of molten metal [T]			+10% -10%

✖Composition Factor from Fluid can be defined as the factor affecting fluidity and composition of metal.ⓘ Composition Factor from Fluidity Spiral Length [c.f]

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Formula

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Composition Factor from Fluidity Spiral Length

Formula

`"c.f" = (389.6+"L"_{"F.S"}-0.228*"T")/37.846`

Example

`"5.637631"=(389.6+"0.04m"-0.228*"500°C")/37.846`

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Composition Factor from Fluidity Spiral Length Solution

STEP 0: Pre-Calculation Summary

Formula Used

Composition Factor from Fluid = (389.6+Fluidity spiral length-0.228*Pouring Temperature of molten metal)/37.846
c.f = (389.6+L_F.S-0.228*T)/37.846
This formula uses 3 Variables

Variables Used

Composition Factor from Fluid - Composition Factor from Fluid can be defined as the factor affecting fluidity and composition of metal.
Fluidity spiral length - (Measured in Meter) - Fluidity Spiral length is measured for the fluidity which is represented by the length of the spiral solidified.
Pouring Temperature of molten metal - (Measured in Kelvin) - Pouring temperature of molten metal is the temperature of the molten metal during pouring.

STEP 1: Convert Input(s) to Base Unit

Fluidity spiral length: 0.04 Meter --> 0.04 Meter No Conversion Required
Pouring Temperature of molten metal: 500 Celsius --> 773.15 Kelvin (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

c.f = (389.6+L_F.S-0.228*T)/37.846 --> (389.6+0.04-0.228*773.15)/37.846

Evaluating ... ...

c.f = 5.6376314537864

STEP 3: Convert Result to Output's Unit

5.6376314537864 --> No Conversion Required

FINAL ANSWER

5.6376314537864 ≈ 5.637631 <-- Composition Factor from Fluid

(Calculation completed in 00.020 seconds)

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Created by Rajat Vishwakarma

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

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< 4 Fluidity Test Calculators

Composition factor for gray cast iron

Go Composition Factor = Carbon Percentage+(0.25*Silicon Percentage)+(0.5*Phosphorus Percentage)

Fluidity spiral length

Go Fluidity Spiral Length (solidified) = 37.846*Composition Factor+(0.228*Pouring temperature (in degree Celsius))-389.6

Composition Factor from Fluidity Spiral Length

Go Composition Factor from Fluid = (389.6+Fluidity spiral length-0.228*Pouring Temperature of molten metal)/37.846

Pouring Temperature from Fluidity Spiral Length

Go Pouring temperature = (389.6+Spiral Length of Fluidity-37.846*Composition Factor of fluidity)/0.228

Composition Factor from Fluidity Spiral Length Formula

Composition Factor from Fluid = (389.6+Fluidity spiral length-0.228*Pouring Temperature of molten metal)/37.846
c.f = (389.6+L_F.S-0.228*T)/37.846

What is Spiral Fluidity test?

Since fluidity depends on such a large number of diverse variables, it is not feasible theoretically to determine it and therefore, practical testing is resorted to. The most commonly used testing is the spiral fluidity test. The mould of the same composition that is to be used is prepared with the standard spiral pattern with gating. The casting prepared from the mould is measured for the fluidity which is represented by the length of the spiral solidified.
Gray cast iron is the most fluid of all the ferrous alloys. The fluidity of gray cast iron is affected by the composition factor (CF). Since the fluidity is affected by the pouring temperature and to affect the completion of the mould filling in a reasonable time, the pouring temperatures of the molds are accordingly controlled.

How to Calculate Composition Factor from Fluidity Spiral Length?

Composition Factor from Fluidity Spiral Length calculator uses Composition Factor from Fluid = (389.6+Fluidity spiral length-0.228*Pouring Temperature of molten metal)/37.846 to calculate the Composition Factor from Fluid, The Composition factor from fluidity spiral length can be determined by considering fluidity spiral length and pouring temperature. Composition Factor from Fluid is denoted by c.f symbol.

How to calculate Composition Factor from Fluidity Spiral Length using this online calculator? To use this online calculator for Composition Factor from Fluidity Spiral Length, enter Fluidity spiral length (L_F.S) & Pouring Temperature of molten metal (T) and hit the calculate button. Here is how the Composition Factor from Fluidity Spiral Length calculation can be explained with given input values -> 5.636585 = (389.6+0.0004-0.228*773.15)/37.846.

FAQ

What is Composition Factor from Fluidity Spiral Length?

The Composition factor from fluidity spiral length can be determined by considering fluidity spiral length and pouring temperature and is represented as c.f = (389.6+L_F.S-0.228*T)/37.846 or Composition Factor from Fluid = (389.6+Fluidity spiral length-0.228*Pouring Temperature of molten metal)/37.846. Fluidity Spiral length is measured for the fluidity which is represented by the length of the spiral solidified & Pouring temperature of molten metal is the temperature of the molten metal during pouring.

How to calculate Composition Factor from Fluidity Spiral Length?

The Composition factor from fluidity spiral length can be determined by considering fluidity spiral length and pouring temperature is calculated using Composition Factor from Fluid = (389.6+Fluidity spiral length-0.228*Pouring Temperature of molten metal)/37.846. To calculate Composition Factor from Fluidity Spiral Length, you need Fluidity spiral length (L_F.S) & Pouring Temperature of molten metal (T). With our tool, you need to enter the respective value for Fluidity spiral length & Pouring Temperature of molten metal 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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