The Phase Stability in the Fe-B Binary System: Comparison between the Interstitial and Substitutional Models
p.1
p.1
Analytical Solutions of the Boltzmann Transformation Equation
p.11
p.11
Interface Controlled Diffusional Creep of Cu + 2.8 at.% Co Solid Solution
p.33
p.33
Reactive Diffusion at the Contact of a Solid Phase with the Solder Melt
p.41
p.41
Determination of Intrinsic Diffusion Coefficients in Binary Alloys with Variable Molar Volume by the M-M Method
p.73
p.73
The Coke and Iron Ore Materials Kinetic Characteristics and Quantitative Indicators of Blast Furnace Process
p.87
p.87
Molybdenum Disilicide - Diffusion, Defects, Diffusion Correlation, and Creep
p.107
p.107
Original Methods for Diffusion Measurements in Polycrystalline Thin Films
p.129
p.129
Influence of Deformation on Precipitation Kinetics in Mg-Tb Alloy
p.151
p.151
Determination of Intrinsic Diffusion Coefficients in Binary Alloys with Variable Molar Volume by the M-M Method
Abstract:
The Multiple-Marker (M-M) method is useful because it enables the determination of the intrinsic diffusion coefficients not only at the Kirkendall marker position but also at places where the M-M are located. However, the analysis is not applicable to the alloys with variable molar volume. In this work, a new graphical method that is applicable to the alloys with variable molar volume is proposed.
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Periodical:
Defect and Diffusion Forum (Volume 322)
Pages:
73-85
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Online since:
March 2012
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© 2012 Trans Tech Publications Ltd. All Rights Reserved
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