Abstract

Using differential scanning calorimetry (DSC) the precipitation processes of supersaturated solid solutions of three Cu-Co-Si alloys, with a constant cobalt composition, were studied. Thermograms, and previous studies, reveal that the decomposition begins with cobalt precipitation. Clustering of cobalt initiates the silicon precipitation, finally Co 2 Si stoichiometric particles are formed. Volume fractions are determined by the amount of cobalt present in these alloys. It is inferred that surplus silicon atoms retained in the solution increase the reaction rate. Kinetic parameters were calculated by a method based in the Mehl-Johnson-Avrami (MJA) formalism. The lower activation energy obtained, associated with cobalt clustering is attributed to the contribution of quenched-in vacancies.

Highlights

  • Mediante calorimetría diferencial de barrido (DSC) se estudió el proceso de precipitación de soluciones sólidas supersaturadas de tres aleaciones de Cu-Co-Si, con composición de cobalto constante

  • Thermograms, and previous studies, reveal that the decomposition begins with cobalt precipitation

  • The lower activation energy obtained, associated with cobalt clustering is attributed to the contribution of quenched-in vacancies

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Summary

INTRODUCCIÓN

El desarrollo de aleaciones ternarias de alta resistencia está siendo motivo de variados estudios desde mediados de la década pasada. En el caso de las aleaciones de Cu-Co-Si, el proceso de precipitación ha sido estudiado por resistividad eléctrica^ ' , fuerzas termoeléctricas"^^ ^ ^ y calorimetría diferencial de barrido^ ' \ Estos últimos estudios han considerado el comportamiento mecánico de dichas aleaciones y, además, han dado información acerca de la nucleación y crecimiento de los precipitados estables C02SÍ. Trabajos anteriores de los autores de la presente investigación^ '^ estudiaron el comportamiento a la fatiga de algunas aleaciones de Cu-Co-Si de composiciones cuasi binarias Cu-xCo2Si. Los principales objetivos del presente estudio son: caracterizar el proceso de precipitación del C02SÍ, a partir de soluciones supersaturadas de Cu-Co-Si con, aproximadamente, igual concentración de átomos de cobalto, pero con diferente superávit de (*) Universidad de Chile, Facultad de Ciencias Físicas y Matemáticas, Dpto. DÍAZ átomos de silicio con respecto a la composición estequiométrica de C02SÍ, y estimar la cinética de precipitación mediante el formalismo de MehlJohnson-Avrami en conjunto con un modelo de convolución

MATERIALES Y PROCEDIMIENTO EXPERIMENTAL
RESULTADOS Y DISCUSIÓN
CONCLUSIONES
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