Issue 11, 2021

Influence of high-pressure torsion deformation on the corrosion behaviour of a bioresorbable Mg-based alloy studied by positron annihilation

Abstract

The effect of high-pressure torsion (HPT) on the corrosion behavior of extruded ZX00 (Mg–0.45wt%Zn–0.45wt%Ca) in phosphate buffered saline solution is investigated. MgCaZn alloys are promising candidates for the use as bioresorbable implant materials and, therefore, are in the focus of current research. To improve their strength, severe plastic deformation, e.g. via the technique of HPT, can be used. Positron lifetime spectroscopy (PLS) is applied as sensitive tool for studying open-volume defects which evolve during HPT processing and subsequent corrosion. The studies were complemented by electrochemical impedance spectroscopy (EIS). In the uncorroded state, grain boundaries are the major type of positron trap as quantitatively analysed by means of diffusion-reaction models for positron trapping and annihilation in fine-grained alloys. Upon corrosion, positronium formation and annihilation indicate larger open-volume structures, such as pores and cracks, in the emerging corrosion product and oxide layers. Both PLS and EIS clearly show that HPT-deformation strongly reduces the resistance against corrosion. Evidence is found for corrosion-induced open-volume defects, presumably related to hydrogen, in deeper parts of the material below the corrosion layer.

Graphical abstract: Influence of high-pressure torsion deformation on the corrosion behaviour of a bioresorbable Mg-based alloy studied by positron annihilation

Article information

Article type
Paper
Submitted
29 Jan 2021
Accepted
23 Apr 2021
First published
30 Apr 2021
This article is Open Access
Creative Commons BY-NC license

Biomater. Sci., 2021,9, 4099-4109

Influence of high-pressure torsion deformation on the corrosion behaviour of a bioresorbable Mg-based alloy studied by positron annihilation

P. Brunner, F. Brumbauer, E. Steyskal, O. Renk, A. Weinberg, H. Schroettner and R. Würschum, Biomater. Sci., 2021, 9, 4099 DOI: 10.1039/D1BM00166C

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