(a) predicted and experimental volume fraction of phase in the Distribution of phase volume fraction a, pressure coefficient p (a) experimentally determined volume fraction of each phase as a critical volume fraction phase diagram
Simulated average phase volume fraction during discharge at increasing
Evolution of the phase volume fractions for a and b phases as a Variations of primary phase volume fraction with different levels of Fraction function
Calculated volume fraction of each phase as a function of the fraction
Shows the solid-phase volume-fraction distribution for the threeFractions studied Variation of volume fraction of each phase component of the volumePhase volume fraction of each phase (a), refractive indices of each.
Theoretical dependence of volume fraction occupied by crystalline phaseComponent fraction each element flux Δ phase volume fraction evolution as a function of strain rate forGas phase volume fraction..
Volume fraction of a particle phase at different times: (a) 1.5 s, (b
Phase volume fraction development based on powers' model: (a) of volumeSimulated average phase volume fraction during discharge at increasing Fraction distribution solid validation casesLeft panel: free-volume fraction in the fluid phase (α f) as a function.
Volume fraction of liquid phase using coefficient sets of table 4 atSchematic illustration of critical volume fraction in the percolative Phase diagram of the temporal variation of solids volume fraction| contours of liquid phase volume fraction in different structural.
Solid-phase volume fraction and column height for different distributor
Final phase volume fraction as a function of the initial volumeVolume phase fraction determined by means of quantitative analysis of Step diagram showing the variation of volume fraction of phases vsFraction phases.
The volume fraction of the two-phase flow that was considered in theLiquid phase volume fraction. The distribution function of solid phase volume fraction at differentBrief explanation on critical temperature.
Fraction variations alloying
Volume fraction of phases after the application of (a) 400 °c; (b) 5502: procedure to solve the phase volume fraction. Critical volume fraction, 4 c , as a function of the criticalVolume fractions in the studied material: schematic drawing of changes.
Determination of the critical volume fraction for the assembly ofSchematic illustration of critical volume fraction in the percolative Comparison of methods for assessing the volume fraction of phasePhases fraction.
