How to achieve nanometer flat surfaces: Pulsed electrochemical machining of bulk metallic glass

The Bulk Metallic Glass (BMG) Vitreloy 105 (Zr52.5Ti5Ni14.6Cu17.9Al10) as well as two crystalline reference materials of the same composition were machined with Pulsed Electrochemical Machining (PECM). One reference material was nano crystalline with an average grain size of 11 nm and the second one...

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Bibliographic Details
Published in:Journal of materials research and technology 2024-09, Vol.32, p.1152-1158
Main Authors: Adam, Bastian, Hall, Thomas, Ruschel, Lucas Matthias, Schäfer, Florian, Pauly, Christoph, Bähre, Dirk, Busch, Ralf
Format: Article
Language:English
Subjects:
BMG post-processing
Bulk metallic glasses
Pulsed electrochemical machining
Superior surface quality
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Summary:The Bulk Metallic Glass (BMG) Vitreloy 105 (Zr52.5Ti5Ni14.6Cu17.9Al10) as well as two crystalline reference materials of the same composition were machined with Pulsed Electrochemical Machining (PECM). One reference material was nano crystalline with an average grain size of 11 nm and the second one was a fine grain crystalline sample with an average grainsize of 110 nm. The goal was to achieve maximum surface quality in terms of roughness by utilizing a readily available industrial process. Samples were characterized by tactile profilometer, atomic force microscopy and electron microscopy methods. The results show superior surface quality of the amorphous samples over the reference materials with an average roughness depth as low as 1 nm. The observed dissolution mechanism of the BMG differs from the reference materials -as in contrast to the crystalline alloys that show a passive layer formation - no such surface layer other than the native oxide could be observed. The PECM procedure is found to be a promising post-processing step for BMGs with a resulting surface that can face even the most challenging surface quality requirements. [Display omitted] •Vitreloy105 alloy in bulk metallic glass state as well as in two crystalline states was PECM processed.•Adequate parameter ranges result in a nanometer flat surface in the case of the amorphous sample.•The dissolution behavior of the BMG samples is found to differ significantly from the crystalline samples.•PECM procedure is found to be a promising post-processing step for BMGs.
ISSN:2238-7854
DOI:10.1016/j.jmrt.2024.07.130