Static and oscillation superimposed ring compression tests with structured and coated tools for Sheet-Bulk Metal Forming

verfasst von: Bernd Arno Behrens, Alexander Meijer, Dominic Stangier, Sven Hübner, Dirk Biermann, Wolfgang Tillmann, Daniel Rosenbusch, Philipp Müller
Abstract: Forming tools with tailored surfaces or functional surface modifications offer great potential for the adaption and optimization of forming processes. However, the interaction of the resulting tribological conditions with additional process oscillations and lubricants has not yet been sufficiently investigated. In the field of sheet-bulk metal forming the superimposition of oscillations is a new, highly promising approach for optimizing the forming of metallic materials. The aim of this study is therefore to investigate the forming behavior of metallic materials with an oscillation superimposition in combination with structured tool surfaces. In order to examine to what extend the friction factor and the forming force can be influenced by structured surfaces and PVD-coatings ring compression tests were conducted to re-create the real process conditions. The experiments were carried out statically and with an oscillation superimposition in the main force flow of the machine under lubrication and dry conditions. Occurring interactions between surface applications, lubrication and oscillation superimposition are identified and analyzed within the context of this work. Thereby, three different deterministic surface structures of the ring compression tools were considered. A radial and tangential arrangement of a wave-like structure as well as an isotropic honeycomb structure were applied on the forming tools by means of micromilling. For a lubricated and vibration superimposed process, especially the isotropic honeycomb structure caused a significant decrease in friction. This was attributed to the formation of lubrication pockets. Despite the reduced friction, in some cases no reduction of the forming force occurred by using an oscillation superimposed forming process. This behavior was attributed to damping effects caused by the lubricating pockets.
Organisationseinheit(en): Institut für Umformtechnik und Umformmaschinen
Externe Organisation(en): Technische Universität Dortmund
Typ: Artikel
Journal: Journal of manufacturing processes
Band: 55
Seiten: 78-86
Anzahl der Seiten: 9
ISSN: 1526-6125
Publikationsdatum: 07.2020
Publikationsstatus: Veröffentlicht
Peer-reviewed: Ja
ASJC Scopus Sachgebiete: Strategie und Management, Managementlehre und Operations Resarch, Wirtschaftsingenieurwesen und Fertigungstechnik
Elektronische Version(en): https://doi.org/10.1016/j.jmapro.2020.04.007 (Zugang: Geschlossen)
: Details im Forschungsportal „Research@Leibniz University“

BibTeX

@article{12fd12d93ca84efd95f7d06df674375d,
title = "Static and oscillation superimposed ring compression tests with structured and coated tools for Sheet-Bulk Metal Forming",
abstract = "Forming tools with tailored surfaces or functional surface modifications offer great potential for the adaption and optimization of forming processes. However, the interaction of the resulting tribological conditions with additional process oscillations and lubricants has not yet been sufficiently investigated. In the field of sheet-bulk metal forming the superimposition of oscillations is a new, highly promising approach for optimizing the forming of metallic materials. The aim of this study is therefore to investigate the forming behavior of metallic materials with an oscillation superimposition in combination with structured tool surfaces. In order to examine to what extend the friction factor and the forming force can be influenced by structured surfaces and PVD-coatings ring compression tests were conducted to re-create the real process conditions. The experiments were carried out statically and with an oscillation superimposition in the main force flow of the machine under lubrication and dry conditions. Occurring interactions between surface applications, lubrication and oscillation superimposition are identified and analyzed within the context of this work. Thereby, three different deterministic surface structures of the ring compression tools were considered. A radial and tangential arrangement of a wave-like structure as well as an isotropic honeycomb structure were applied on the forming tools by means of micromilling. For a lubricated and vibration superimposed process, especially the isotropic honeycomb structure caused a significant decrease in friction. This was attributed to the formation of lubrication pockets. Despite the reduced friction, in some cases no reduction of the forming force occurred by using an oscillation superimposed forming process. This behavior was attributed to damping effects caused by the lubricating pockets.",
keywords = "oscillation superimposition, sheet-bulk metal forming, Tailored surfaces",
author = "Behrens, {Bernd Arno} and Alexander Meijer and Dominic Stangier and Sven H{\"u}bner and Dirk Biermann and Wolfgang Tillmann and Daniel Rosenbusch and Philipp M{\"u}ller",
note = "Funding Information: The authors gratefully acknowledge the financial support of the German Research Foundation (DFG) within the transregional collaborative research center TR73 “Manufacturing of complex functional components with variants by using a new sheet metal forming process – Sheet Bulk Metal Forming” projects A7 (“Dynamic Process Forces” Nr. 116817829 ), B2 (“Machining of Molds with Filigree Structures for Sheet-Bulk Metal Forming” Nr. 116847601 ) and B5 (“Application of nanostructured bionic thin layers to enhance the wear and friction behavior of forming tools by thin-walled sheet forming” Nr. 116847942 ).",
year = "2020",
month = jul,
doi = "10.1016/j.jmapro.2020.04.007",
language = "English",
volume = "55",
pages = "78--86",
journal = "Journal of manufacturing processes",
issn = "1526-6125",
publisher = "Elsevier BV",
}