Hochschularbeit

Nicolas Hannay:	Experiments on removing oxide layers on brass using plasma-activated water	Zurück
Sprache:	Original - Übersetzung
Seitenübersicht:	Zusammenfassung weitere Angaben zur Hochschularbeit Kontakt Download DOI (Digital Object Identifier)

Zusammenfassung:	The removal of oxide layers from metals in restoration often presents both technical and ethical di- lemmas. Therefore, this master´s thesis investigated the potential of plasma-activated water (PAW) for removing oxide layers from brass surfaces. The aim was to evaluate the cleaning effect on artifi- cially aged samples and historical objects. Furthermore, comprehensive investigations of PAW´s pH value were carried out, and possibilities for producing plasma-activated hydrogels (PAH) were explored to enable more targeted application. PAW treatments resulted in a high gloss and brightening of the surfaces, which was interpreted as the removal of dull, overlying oxide layers. However, the original tone of the brass could not be achieved in any case. The surfaces remained redder and changed significantly after treatment. pH analyses confirmed PAW´s stability in closed, dark containers, while storage exposed to air or at elevated temperatures caused a decrease in pH. The increased pH values on the metal surface after treatment might indicate the formation of new corrosion products. The production of PAH was successful with the thickening agents Carbopol®, Xanthan, and Klucel® M. Attempts to remove oxide layers using the prepared gels yielded similar results to liquid PAW. Due to the strong color differences after treatment, the ongoing changes to the surface, and the risk of acidic residues, PAW cannot currently be recommended for removing oxide layers in restora- tion. However, its corrosion-removing properties open up potential applications in the (pre-)treat- ment of metals. Top
Schlagworte:	Plasma-activated water (PAW), Plasma-activated hydrogel (PAH), Brass, Oxide layer, Corrosion
weitere Angaben:	Hochschule: HAWK Hochschule für angewandte Wissenschaft und Kunst Hildesheim/Holzminden/Göttingen Art der Arbeit: Masterarbeit Erstprüfer/in: Prof. Dr. Julia Schultz Zweitprüfer/in: Prof. Dr. rer. nat. habil. Christoph Gerhard Abgabedatum: 2025 Sprache: German Seitenzahl: 125 Abbildungen: 52
Kontakt:	Nicolas Hannay nichannay@[Diesen Teil loeschen]googlemail.com
Download:	Volltext der Hochschularbeit (pdf-Format, ca. 12.85 MB) Dieses Werk steht unter einer Creative Commons BY-NC-ND 3.0 Deutschland Lizenz.
DOI (Digital Object Identifier)	10.5165/hawk/552
Zurück

Das Hornemann Institut verfügt ausschließlich über die hier angezeigten Informationen. Für weitere Informationen oder Kopien der Hochschularbeit wenden Sie sich bitte an den Autor/die Autorin - oder wenn kein Kontakt angegeben ist - an die Sekretariate der jeweiligen Fakultäten.