Fundamentals of isothermal austenite reversion in a Ti-stabilized 12Cr-6Ni-2Mo super martensitic stainless steel : thermodynamics versus experimental assessments
J.D. Escobar, G.A. Faria, E.L. Maia, J.P. Oliveira, T. Boll, S. Seils, P.R. Mei, A.J. Ramirez
ARTIGO
Inglês
Agradecimentos: The authors acknowledge the XTMS beamline members, the Brazilian Synchrotron Light Source (LNLS) and the Brazilian Nanotechnology National Laboratory (LNNano) for the support with the diffraction experiments; Villares Metals S.A. for the donation of the materials; and CNPq-SWE...
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Agradecimentos: The authors acknowledge the XTMS beamline members, the Brazilian Synchrotron Light Source (LNLS) and the Brazilian Nanotechnology National Laboratory (LNNano) for the support with the diffraction experiments; Villares Metals S.A. for the donation of the materials; and CNPq-SWE 02766/2014-4, FAPESP (2014/20844-1), FAPESP (2016/13466-6) for the PhD funding. J. P. Oliveira acknowledges Fundação para a Ciência e a Tecnologia (FCT - MCTES) for its financial support via the project UID/EMS/00667/2019. FIB and APT were conducted at the Karlsruhe Micro Nano Facility (KNMF), at the Karlsruhe Institute for Technology (KIT). The authors would like to thank Mrs. Delphine Chassaing for assistance with the FIB preparation at KIT. Additional FIB and TEM measurements were performed at the Center for Electron Microscopy and Analysis (CEMAS), at The Ohio State University. The authors would like to thank Dr. Camilo Salvador for assistance with the FIB and STEM experiments at CEMAS
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Abstract: This work addresses the fundamentals of inter-critical austenite reversion in a Ti-stabilized 12Cr-6Ni-2Mo (at.%) supermartensitic stainless steel, combining thermodynamic and experimental assessments. The calculation of the temperature and composition at which ferrite and austenite phases...
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Abstract: This work addresses the fundamentals of inter-critical austenite reversion in a Ti-stabilized 12Cr-6Ni-2Mo (at.%) supermartensitic stainless steel, combining thermodynamic and experimental assessments. The calculation of the temperature and composition at which ferrite and austenite phases have the same free energy, i.e. T0 and C0(T), respectively, is discussed as a methodology to understand the austenite reversion and stabilization mechanisms. An ultra-fast heating rate of 500 °C s-1 provided isothermal austenite nucleation and growth from a fully solubilized martensite, allowing direct comparison with the compositional tie-lines and the transformation paths described by the free energy calculations. Isothermal transformation temperatures below and above T0 (625 °C) were used. Below T0, massive reversion was suppressed since it would imply a free energy increase. The opposite occurred above T0, since the critical Ni concentration for austenite reversion was lower than for the solubilized case. Transmission electron microscopy and atom probe tomography evidenced that, in all cases, lath growth occurred by local equilibrium partitioning of Ni, along with co-segregation of ferrite-stabilizing elements (Cr and Mo) at the advancing interface. The complex interaction between Cr, Ni and Mo on the energy gain upon nucleation of austenite revealed that Cr segregation can be beneficial while the adverse effect of Mo can be quickly outbalanced by Ni. The most stable reverted laths were obtained for transformation temperatures at least 15 °C below T0 with average austenite/martensite Ni partitioning factors higher than 2.0
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CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQ
02766/2014-4
FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESP
2014/20844-1; 2016/13466-6
Fechado
Fundamentals of isothermal austenite reversion in a Ti-stabilized 12Cr-6Ni-2Mo super martensitic stainless steel : thermodynamics versus experimental assessments
J.D. Escobar, G.A. Faria, E.L. Maia, J.P. Oliveira, T. Boll, S. Seils, P.R. Mei, A.J. Ramirez
Fundamentals of isothermal austenite reversion in a Ti-stabilized 12Cr-6Ni-2Mo super martensitic stainless steel : thermodynamics versus experimental assessments
J.D. Escobar, G.A. Faria, E.L. Maia, J.P. Oliveira, T. Boll, S. Seils, P.R. Mei, A.J. Ramirez
Fontes
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Acta materialia Vol. 174, no. 1 (Aug., 2019), p. 246-259 |