M.R. Tolosa scite author profile

RESUMENLas aleaciones de base Zr son de extendida aplicación en el campo de la tecnología nuclear. El Zr aleado con Sn y Fe es la base principal de las aleaciones tipo Zircaloy, aún hoy muy utilizadas como elementos estructurales y como contenedores de los elementos combustibles en reactores nucleares de potencia. Este sistema metalúrgico ternario también forma parte de aleaciones de más reciente desarrollo como las Zirlo (EEUU). Si bien en todas ellas el Zr es el aleante mayoritario es útil e importante conocer los diagramas de fases de sus componentes en la forma más completa posible.El diagrama de fases Fe-Sn-Zr viene siendo estudiado en forma sistemática por el grupo de trabajo desde hace años. Se ha avanzado mucho en el trazado del diagrama de fases a 800ºC, pero han quedado regiones del triángulo de Gibbs sin resolver. Con el objeto de evaluar experimentalmente estas zonas se procedió al diseño y fabricación de un conjunto de aleaciones ternarias. Las mismas fueron tratadas térmicamente a la temperatura de interés por 2928 horas y caracterizadas aplicando técnicas de metalografía, difracción de rayos X y de microanálisis. En este trabajo se confirmó la existencia de los compuestos ternarios Y y Fe 6 Sn 6 Zr, así como la presencia de la fase X" y se determinaron campos de existencia de 2 y 3 fases, todo a 800°C. Finalmente se trazaron los límites de equilibrio de fases en las regiones bajo estudio, completando en gran proporción el diagrama de fases para el corte isotérmico analizado. Palabras clave: Materiales nucleares, Diagramas de Fases, Circonio. ABSTRACTThe Zr-based alloys are extensively applied in the field of nuclear technology. Alloyed with Sn and Fe, Zr is the main element in the zircaloy-type alloys, currently vastly used as structural elements and as containers of burnable elements in nuclear reactors. This ternary metallurgical system is also a component of more recently developed alloys such as Zirlo (USA). Although Zr is a major component in all of them, it is most important to know the phase diagrams of their components as best as possible. The Fe-Sn-Zr phase diagram has been systematically studied by our research team for many years. Considerable advancement has been made in the design of the phase diagram at 800°C, however, some regions in the Gibbs triangle are still unsolved. In order to evaluate these regions experimentally, a ternary alloy set was designed and prepared. These alloys were thermally treated at the chosen temperature for 2928 hours, and characterized by applying metallography techniques, X-ray diffraction and microanalysis. The presence of Y and Fe 6 Sn 6 Zr was confirmed, the presence of phase X" was verified, and 2-and 3-phase existence fields were determined. Finally, phase balance boundaries in the regions under study were traced, completing, to a great extent, the phase diagram for the isothermal cut analysed.

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M.R. Tolosa

Experimental study of Fe-rich region in the Fe–Nb–Zr system at 1000 °C

Short communication on experimental phase diagram of the Fe corner in the Fe-Nb-Zr system at 800 °C

Diagrama de fases experimental Fe-Sn-Zr. Nuevos resultados del corte isotérmico de 800 °C

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M.R. Tolosa

Experimental study of Fe-rich region in the Fe–Nb–Zr system at 1000 °C

Short communication on experimental phase diagram of the Fe corner in the Fe-Nb-Zr system at 800 °C

Diagrama de fases experimental Fe-Sn-Zr. Nuevos resultados del corte isotérmico de 800 °C

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Resources

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Short communication on experimental phase diagram of the Fe corner in the Fe-Nb-Zr system at 800 °C