Title of article
A thermodynamic model of the Z-phase Cr(V, Nb)N
Author/Authors
Hilmar Kjartansson Danielsen، نويسنده , , John Hald، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
10
From page
505
To page
514
Abstract
Precipitation of large Z-phase particles, Cr(V, Nb)N, replacing fine MX carbonitrides, Nb(C, N) or V(N, C), has recently been identified as a major cause for premature breakdown in long-term creep strength of a number of new 9%–12% Cr martensitic steels, especially the high Cr variants.
A thermodynamic model of the Z-phase has been developed based on the regular solution model. The model predicts Z-phase to be stable and to fully replace the MX particles in most of the new 9%–12% Cr steels, which is in good agreement with experimental observations.
The rate of precipitation of Z-phase is a crucial factor for the long-term creep stability of these steels. Driving force calculations with the model allow estimates of the influence of the individual alloying elements on the rate of Z-phase precipitation, and can thus contribute useful information for alloy design to delay and retard Z-phase precipitation.
According to these calculations, particularly Cr has a strong accelerating effect on Z-phase precipitation.
Keywords
Z-phase , Cr(V , Nb)N , CrNbN , Thermo-Calc , CrVN
Journal title
C A L P H A D (Computer Coupling of Phase Diagrams and Thermochemistry)
Serial Year
2007
Journal title
C A L P H A D (Computer Coupling of Phase Diagrams and Thermochemistry)
Record number
515412
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