Precipitation of niobium carbonitrides in ferrite: chemical composition measurements and thermodynamic modelling

Perez, Michel; Courtois, Eglantine; Acevedo, Daniel; Épicier, Thierry; Maugis, Philippe

doi:10.1080/09500830701427003

Cited by 39 publications

(30 citation statements)

References 19 publications

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“…The inclusion of the misfit gives a significant contribution to the interface energy and must therefore be accurately accounted for in order to obtain a proper interface description. These findings will have important bearings on our ability to understand the early stage of precipitation and its pathways, 5 to thermodynamically model precipitate stability in Fe-M-X systems, 77 and to describe long-term microstructural evolution in steels. …”

Section: Discussionmentioning

confidence: 99%

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (
Fors
¹
,
Wahnström
²

2010
Phys. Rev. B

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We perform a systematic ab initio study of the electronic and atomic structure of semicoherent interfaces between bcc Fe and NaCl MX ͑M = Sc, Ti, V, Cr, Zr, Nb, Hf, Ta; X = C or N͒. The interface energetics is accessed by using a Peierls-Nabarro framework, in which ab initio data for the chemical interactions across the interface are combined with a continuum description to account for the elastic distortions. The key factors to the trends in the interface energy are identified and discussed with respect to the size of the misfit and the electronic structure of the MX phase. Our approach shows that the inclusion of lattice misfit can have a significant contribution to the interface energy ͑up to 1.5 J / m 2 ͒ and must therefore be thoroughly accounted for in the interface description. The results will have important bearings on our ability to understand and describe precipitate stability in steels.

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Section: Discussionmentioning

confidence: 99%

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (
Fors
¹
,
Wahnström
²

2010
Phys. Rev. B

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“…Binary MX-type carbides have been well characterized at nanoscale by high-resolution transmission electron microscopy (HRTEM), high angle annular dark field (HAADF), electron energy loss spectroscopy (EELS), and small-angle neutron scattering (SANS) and directly giving out the platelike crystal lattice morphology and quantitative composition distribution. [11][12][13][14][15][16] With regard to multicomponent carbides, the competitive affinity of alloy elements such as V, Nb, and Ti to C is strongly influenced by cohesive energy and electron structures at the coherent interfaces between ferrous matrix and MX-type carbides. The compositional and structural evolution of transient phases is also affected by the diffusion coefficient of the carbonforming elements from the aspect of kinetic behaviors.…”

Section: Introductionmentioning

confidence: 99%

Solute Behavior in the Initial Nucleation of V- and Nb-Containing Carbide

Liu

Zhao

2011

Metall Mater Trans A

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The three-dimensional atom probe (3DAP) is used to characterize the solute behavior at the initial nucleation stage of carbide that precipitates in a quench-temper processed multicomponent V-Nb microalloyed steel. The equilibrium (V,Nb)C phase does not precipitate directly from the ferrous matrix with martensite structure, whereas it is preceded by the formation of isostructural diffuse atmosphere, Fe-depleted V-Nb cluster, and metastable phase (Fe,V,Nb)C successively. The transient phases are considered to largely reduce the required high energy, which is often accompanied by the appearance of the fresh incoherent carbide/matrix boundary. During the evolution of these phases, vanadium and niobium diffuse to the previously existing carbon-enriched cluster concurrently but with different mobilities from the aspect of the kinetic pathway, leading to heterogeneous distribution of solutes in the transient phases.

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“…6). The calculated critical radii are smaller than those measured in V-microalloyed steels, whose average size at the nose of the curve is approximately 6 nm [21]. Thus it is shown that the experimental t 0.05 time (P s curve) in Figs.…”

Section: Resultsmentioning

confidence: 77%

“…Thus it is shown that the experimental t 0.05 time (P s curve) in Figs. 1 and 2 does not exactly correspond to the start of nucleation, but that the first nuclei of precipitates form at much shorter times, in such a way that between the moment when the first precipitates form and the moment of t 0.05 corresponding to the nose of the P s curve, when the precipitates were analyzed, considerable growth of the precipitates has occurred [21].…”

Section: Resultsmentioning

confidence: 99%

Nucleation Rate and Number of Precipitates in V and Nb-Microalloyed Steels

Medina

Gómez

2014

MSF

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Abstract. Recrystallization-precipitation-time-temperature (RPTT) diagrams were experimentally determined for two microalloyed steels with V and Nb, respectively, at a strain of 0.35 and a strain rate of 3.63 s -1 . From the RPTT diagrams, and applying the classic theory of nucleation, the nucleation rate was calculated for both steels. In order to determine the mentioned magnitudes, several parameters were calculated, such as: the Zeldovich factor (Z), the energy of formation of the nucleus (G), the driving force for precipitation (Gv), the critical radius for nucleation (Rc), and the dislocation density at the start of precipitation (), among others. The calculated data has made it possible to clarify the shape of precipitation start and finish curves and to plot the nucleation rate as a function of temperature. The number of precipitates was calculated by integration of the nucleation rate expression. In this way, substantial differences were established between the two types of microalloyed steels, including the final size of the V(C, N) and Nb(C, N) precipitates.

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Precipitation of niobium carbonitrides in ferrite: chemical composition measurements and thermodynamic modelling

Cited by 39 publications

References 19 publications

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (
Fors
¹
,
Wahnström
²

2010
Phys. Rev. B

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (
Fors
¹
,
Wahnström
²

2010
Phys. Rev. B

Solute Behavior in the Initial Nucleation of V- and Nb-Containing Carbide

Nucleation Rate and Number of Precipitates in V and Nb-Microalloyed Steels

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Precipitation of niobium carbonitrides in ferrite: chemical composition measurements and thermodynamic modelling

Cited by 39 publications

References 19 publications

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (Fors1, Wahnström2 2010Phys. Rev. B

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (Fors1, Wahnström2 2010Phys. Rev. B

Solute Behavior in the Initial Nucleation of V- and Nb-Containing Carbide

Nucleation Rate and Number of Precipitates in V and Nb-Microalloyed Steels

Contact Info

Product

Resources

About

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (
Fors
¹
,
Wahnström
²

2010
Phys. Rev. B

Theoretical study of interface structure and energetics in semicoherentFe(001)/MX(001)systems (
Fors
¹
,
Wahnström
²

2010
Phys. Rev. B