Influence of ion energy on morphology and corrosion properties of Mg alloys formed by energetic PVD processes

Bohne, Y.; Manova, D.; Blawert, C.; Stoermer, M.; Dietzel, W.; Maendl, S.

Journalpaper

Influence of ion energy on morphology and corrosion properties of Mg alloys formed by energetic PVD processes

Abstract

Different PVD processes – magnetron sputtering, ion beam sputtering and vacuum arc deposition – are used to produce novel corrosion resistant Mg alloys with the average energy per deposited atom increasing from 5–10 to 15–45 eV. Correspondingly, a transition from a 3-dimensional columnar growth regime towards a layer-by-layer growth at increased energies was observed with the film texture changing from a weak basal texture towards a highly oriented film with the c-axis normal to the surface. Additionally, a higher energy helped stabilizing supersaturation, especially for Mg–Ti alloys. However, only a weak influence of the morphology on the corrosion rates was observed, which were mainly governed by the chemical composition of the films.

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URL: https://publications.hereon.de/id/27103/
Authors:Bohne, Y., Manova, D., Blawert, C., Stoermer, M., Dietzel, W., Maendl, S.
Year:2007
In: Nuclear Instruments and Methods in Physics Research B
Volume:257
Issue:1-2
Pages:392 - 396
Publisher:Elsevier
Type:Journalpaper
ISSN: 0168-583X
Cite as: Bohne, Y.; Manova, D.; Blawert, C.; Stoermer, M.; Dietzel, W.; Maendl, S.: Influence of ion energy on morphology and corrosion properties of Mg alloys formed by energetic PVD processes. In: Nuclear Instruments and Methods in Physics Research B. Vol. 257 (2007) 1-2, 392 - 396. (DOI: 10.1016/j.nimb.2007.01.030)