TY - JOUR
T1 - Efecto de la sustitución de V por Ti sobre las temperaturas de transformación de fase y el desajuste de red matriz/precipitado en la superaleación 76Fe-12Al-12V
AU - Ferreirós, Pedro Antonio
AU - Alonso, Paula Regina
AU - Vega, Daniel Roberto
AU - Rubiolo, Gerardo Héctor
N1 - Funding Information:
1 Comisión Nacional de Energía Atómica – Centro Atómico Constituyentes (CNEA-CAC) e Instituto Sabato (UNSAM-CNEA), Av. General Paz 1499, San Martín, Buenos Aires, Argentina e-mail: [email protected], [email protected] 2 Universidad Tecnológica Nacional, Facultad Regional General Pacheco (UTN-FRGP), Av. Hipólito Yrigoyen 288, Gral. Pacheco, Buenos Aires, Argentina 3 Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET), Av. Rivadavia 1917, Buenos Aires, Buenos Aires, Argentina e-mail: [email protected]
Publisher Copyright:
© 2018, Universidade Federal do Rio de Janeiro. All rights reserved.
PY - 2018
Y1 - 2018
N2 - Fe-Al based alloys have a remarkable potential for high temperature structural applications, provided that the limitation of their low creep resistance is solved. Third element addition (Nb, Ti, Zr or Ta) has proven to perform the task, at the expense of a low ductility. In previous works we have investigated ferritic alloys in the\ Fe-Al-V system with coherent precipitation of the L21 phase (Fe2AlV) in the A2 matrix. Among possible alloys, we chose the 76Fe-12Al-12V superalloy for filing a L21 precipitation with spherical morphology and void coalescence at high temperature. The new task is to find a fourth alloy element in order to increase the temperature equilibrium of the two phases A2+L21 field and consequently the maximum application tem-perature. Isothermal sections of the Fe rich corner on ternary Fe-Al-V and Fe-Al-Ti phase diagrams have similar phase fields. Besides, by comparing the formation energies between L21 intermetallics of Ti and V, it is expected a higher equilibrium temperature for the Fe2TiAl than for Fe2VAl. Therefore we select titanium as a possible 4th alloy element in the 76Fe-12Al-12V superalloy We show in this work that vanadium substi-tution by titanium slightly increases the temperature limit for the A2 + L21 phase field while cancelling the lattice misfit between matrix and precipitates for Ti content between 0.5 and 1 at. % and positively increasing it for Ti contents greater than 1 at. %. Besides, we demonstrate that coarsening rate is increased with Ti addi-tion and morphology is modified from spherical to cubic.
AB - Fe-Al based alloys have a remarkable potential for high temperature structural applications, provided that the limitation of their low creep resistance is solved. Third element addition (Nb, Ti, Zr or Ta) has proven to perform the task, at the expense of a low ductility. In previous works we have investigated ferritic alloys in the\ Fe-Al-V system with coherent precipitation of the L21 phase (Fe2AlV) in the A2 matrix. Among possible alloys, we chose the 76Fe-12Al-12V superalloy for filing a L21 precipitation with spherical morphology and void coalescence at high temperature. The new task is to find a fourth alloy element in order to increase the temperature equilibrium of the two phases A2+L21 field and consequently the maximum application tem-perature. Isothermal sections of the Fe rich corner on ternary Fe-Al-V and Fe-Al-Ti phase diagrams have similar phase fields. Besides, by comparing the formation energies between L21 intermetallics of Ti and V, it is expected a higher equilibrium temperature for the Fe2TiAl than for Fe2VAl. Therefore we select titanium as a possible 4th alloy element in the 76Fe-12Al-12V superalloy We show in this work that vanadium substi-tution by titanium slightly increases the temperature limit for the A2 + L21 phase field while cancelling the lattice misfit between matrix and precipitates for Ti content between 0.5 and 1 at. % and positively increasing it for Ti contents greater than 1 at. %. Besides, we demonstrate that coarsening rate is increased with Ti addi-tion and morphology is modified from spherical to cubic.
KW - Ferritic superalloy
KW - Lattice misfit
KW - Phase transformation
UR - http://www.scopus.com/inward/record.url?scp=85050272285&partnerID=8YFLogxK
U2 - 10.1590/S1517-707620180002.0360
DO - 10.1590/S1517-707620180002.0360
M3 - Article
AN - SCOPUS:85050272285
SN - 1517-7076
VL - 23
JO - Revista Materia
JF - Revista Materia
IS - 2
M1 - e-12024
ER -