Volume percent to mass percent Calculator

✖Volume percent of first phase in a two phase microstructure.ⓘ Volume percent of first phase [V₁]			+10% -10%
✖Density of the first phase in a two phase microstructure.ⓘ Density of the first phase [𝜌₁]			+10% -10%
✖Density of the second phase in a two phase microstructure.ⓘ Density of the second phase [ρ₂]			+10% -10%

✖Mass percent of first phase in a two phase microstructure.ⓘ Volume percent to mass percent [M₁]

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Formula

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Volume percent to mass percent

Formula

`"M"_{"1"} = "V"_{"1"}*"𝜌"_{"1"}*100/("V"_{"1"}*"𝜌"_{"1"}+(100-"V"_{"1"})*"ρ"_{"2"})`

Example

`"48.57143"="40"*"8.5g/cm³"*100/("40"*"8.5g/cm³"+(100-"40")*"6g/cm³")`

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Volume percent to mass percent Solution

STEP 0: Pre-Calculation Summary

Formula Used

Mass percent of first phase = Volume percent of first phase*Density of the first phase*100/(Volume percent of first phase*Density of the first phase+(100-Volume percent of first phase)*Density of the second phase)
M₁ = V₁*𝜌₁*100/(V₁*𝜌₁+(100-V₁)*ρ₂)
This formula uses 4 Variables

Variables Used

Mass percent of first phase - Mass percent of first phase in a two phase microstructure.
Volume percent of first phase - Volume percent of first phase in a two phase microstructure.
Density of the first phase - (Measured in Kilogram per Cubic Meter) - Density of the first phase in a two phase microstructure.
Density of the second phase - (Measured in Kilogram per Cubic Meter) - Density of the second phase in a two phase microstructure.

STEP 1: Convert Input(s) to Base Unit

Volume percent of first phase: 40 --> No Conversion Required
Density of the first phase: 8.5 Gram per Cubic Centimeter --> 8500 Kilogram per Cubic Meter (Check conversion here)
Density of the second phase: 6 Gram per Cubic Centimeter --> 6000 Kilogram per Cubic Meter (Check conversion here)

STEP 2: Evaluate Formula

Substituting Input Values in Formula

M₁ = V₁*𝜌₁*100/(V₁*𝜌₁+(100-V₁)*ρ₂) --> 40*8500*100/(40*8500+(100-40)*6000)

Evaluating ... ...

M₁ = 48.5714285714286

STEP 3: Convert Result to Output's Unit

48.5714285714286 --> No Conversion Required

FINAL ANSWER

48.5714285714286 ≈ 48.57143 <-- Mass percent of first phase

(Calculation completed in 00.004 seconds)

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Created by Hariharan V S

Indian Institute of Technology (IIT), Chennai

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< 9 Composition and Diffusion Calculators

Atom percent to mass percent

Go Mass Percent of First Element = Atomic percent of first element*Atomic mass of first element*100/(Atomic percent of first element*Atomic mass of first element+(100-Atomic percent of first element)*Atomic mass of second element)

Atom percent

Go Atomic percent of first element = 100*Mass Percent of First Element*Atomic mass of second element/(Mass Percent of First Element*Atomic mass of second element+(100-Mass Percent of First Element)*Atomic mass of first element)

Non-steady state diffusion

Go Concentration at x Distance = Initial Concentration+(Surface concentration-Initial Concentration)*(1-erf(Distance/(2*sqrt(Diffusion Coefficient*Diffusion Time))))

Volume percent to mass percent

Go Mass percent of first phase = Volume percent of first phase*Density of the first phase*100/(Volume percent of first phase*Density of the first phase+(100-Volume percent of first phase)*Density of the second phase)

Mass percent to volume percent

Go Volume percent of first phase = Mass percent of first phase*Density of the second phase*100/(Mass percent of first phase*Density of the second phase+(100-Mass percent of first phase)*Density of the first phase)

Entropy of mixing

Go Entropy of mixing = 8.314*(Mole fraction of element A*ln(Mole fraction of element A)+(1-Mole fraction of element A)*ln(1-Mole fraction of element A))

Equilibrium Vacancy Concentration

Go Number of vacancies = Number of atomic sites*exp(-Activation energy for vacancy formation/([BoltZ]*Temperature))

Temperature dependent diffusion coefficient

Go Diffusion Coefficient = Pre-exponential factor*e^(-Activation energy for diffusion/(Universal Gas Constant*Temperature))

Diffusion Flux

Go Diffusion flux = Diffusion Coefficient*(Concentration difference/Distance)

Volume percent to mass percent Formula

Use of mass and volume fractions

For multiphase alloys, it is often more convenient to specify relative phase amount in terms of volume fraction rather than mass fraction. Phase volume fractions are preferred because they (rather than mass fractions) may be determined from examination of the microstructure; furthermore, the properties of a multiphase alloy may be estimated on the basis of volume fractions.

How to Calculate Volume percent to mass percent?

Volume percent to mass percent calculator uses Mass percent of first phase = Volume percent of first phase*Density of the first phase*100/(Volume percent of first phase*Density of the first phase+(100-Volume percent of first phase)*Density of the second phase) to calculate the Mass percent of first phase, Volume percent to mass percent of a phase in two phase mixture. Mass percent of first phase is denoted by M₁ symbol.

How to calculate Volume percent to mass percent using this online calculator? To use this online calculator for Volume percent to mass percent, enter Volume percent of first phase (V₁), Density of the first phase (𝜌₁) & Density of the second phase (ρ₂) and hit the calculate button. Here is how the Volume percent to mass percent calculation can be explained with given input values -> 48.57143 = 40*8500*100/(40*8500+(100-40)*6000).

FAQ

What is Volume percent to mass percent?

Volume percent to mass percent of a phase in two phase mixture and is represented as M₁ = V₁*𝜌₁*100/(V₁*𝜌₁+(100-V₁)*ρ₂) or Mass percent of first phase = Volume percent of first phase*Density of the first phase*100/(Volume percent of first phase*Density of the first phase+(100-Volume percent of first phase)*Density of the second phase). Volume percent of first phase in a two phase microstructure, Density of the first phase in a two phase microstructure & Density of the second phase in a two phase microstructure.

How to calculate Volume percent to mass percent?

Volume percent to mass percent of a phase in two phase mixture is calculated using Mass percent of first phase = Volume percent of first phase*Density of the first phase*100/(Volume percent of first phase*Density of the first phase+(100-Volume percent of first phase)*Density of the second phase). To calculate Volume percent to mass percent, you need Volume percent of first phase (V₁), Density of the first phase (𝜌₁) & Density of the second phase (ρ₂). With our tool, you need to enter the respective value for Volume percent of first phase, Density of the first phase & Density of the second phase 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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