Study of the different ZrxNiy phases of Zr-based AB2 materials

F. RUIZ; E. B. CASTRO; H A PERETTI; A, VISINTIN

INTERNATIONAL JOURNAL OF HYDROGEN ENERGY

PERGAMON-ELSEVIER SCIENCE LTD

Lugar: Coral Gables; Año: 2010 vol. 35 p. 9879 - 9887

0360-3199

Hydride-forming alloys are used as components of the negative electrode of nickel-metal hydride (NiMH) batteries. In previous works, the study of Zr-based AB2-type alloys indicated that the material without heat treatment (annealing) had better electrochemical characteristics than the annealed one. The effect was attributed to the presence of  secondary phases ZrxNiy formed during the solidification of the alloy button obtained by  arc melting, and to the fact that these phases diminished their concentration or disappeared upon annealing. The main secondary phases formed by microsegregation are Zr7Ni10, Zr9Ni11 and Zr8Ni21.  In order to explain the effect of each one of these micro-segregations, alloys of the abovementioned composition were prepared by arc furnace and studied separately using powder mixtures of each ZrxNiy phase and annealed ZrCrNi alloy. The electrochemical impedance data analysis of each ZrxNiy alloy, using a model developed  in our laboratory, allowed the identification of structural, physicochemical and kinetic parameters which determine the performance of each material. Based on this analysis it may be concluded that Zr8Ni21 alloy has the greatest hydrogen diffusion coefficient, being  this parameter determinant of the charge/discharge performance of the alloy. this parameter determinant of the charge/discharge performance of the alloy. in our laboratory, allowed the identification of structural, physicochemical and kinetic parameters which determine the performance of each material. Based on this analysis it may be concluded that Zr8Ni21 alloy has the greatest hydrogen diffusion coefficient, being  this parameter determinant of the charge/discharge performance of the alloy.