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Effect of the degree of crystallinity on the electrochemical behavior of Mg65Cu25Y10 and Mg70Zn 25Ca5 bulk metallic glasses

Version 2 2024-06-02, 13:11
Version 1 2014-10-28, 10:09
journal contribution
posted on 2024-06-02, 13:11 authored by X Zhou, KD Ralston, KJ Laws, JD Cao, RK Gupta, M Ferry, Nick BirbilisNick Birbilis
The effect of varying the percent crystallinity on the electrochemical behavior of Mg65Cu25Y10 and Mg70Zn25Ca5 bulk metallic glasses was studied. The alloys were heat-treated to achieve desired microstructures ranging from fully amorphous to fully crystalline, providing a systematic basis for subsequent testing. Potentiodynamic experiments in 0.01 M sodium chloride (NaCl) were used, whereby both the amorphous and partially crystallized samples were observed to have more noble corrosion potentials and lower anodic kinetics. However, this was accompanied by more rapid cathodic kinetics relative to their fully crystalline counterparts, meaning that corrosion rates were not significantly lower in the amorphous state. To describe the electrochemical response as a function of the degree of crystallinity, differential scanning calorimetry (DSC), scanning electron microscopy, x-ray diffraction (XRD), and electrical conductivity measurements were undertaken, where it was found that crystallinity alone is not necessarily the controlling factor and microchemistry that evolves upon devitrification, plays a key role in the electrochemical response of these materials.

History

Journal

Corrosion

Volume

69

Pagination

781-792

Location

Houston, Tex.

ISSN

0010-9312

eISSN

1938-159X

Language

English

Publication classification

C1.1 Refereed article in a scholarly journal

Issue

8

Publisher

NATL ASSOC CORROSION ENG