How dry is dry? - A critical analysis of surface conditions used in dry metal forming

In the present study, the surface conditions of workpieces used for dry-metal forming experiments were analyzed. Specifically, the effectiveness of different cleaning approaches was evaluated using x-ray photoelectron spectroscopy, infrared spectroscopy and wetting experiments. The best cleaning res...

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Hauptverfasser:	Almohallami, Amer, Arghavani, Mostafa, Böhmermann, Florian, Freiße, Hannes, Herrmann, Marius, Mousavi, Ali, Schöler, Simon, Scholz, Peter, Tenner, Jennifer, Teller, Marco, Wulff, Daniel, Yilkiran, Deniz, Maier, Hans-Jürgen, Umlauf, Georg
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Sprache:	eng
Schlagworte:	Beschichtung cleaning coating lubricant Oberflächenanalyse Reinigung Schmiermittel schmiermittelfrei spectroscopy Spektroskopie surface analysis Trockenziehen
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creator	Almohallami, Amer Arghavani, Mostafa Böhmermann, Florian Freiße, Hannes Herrmann, Marius Mousavi, Ali Schöler, Simon Scholz, Peter Tenner, Jennifer Teller, Marco Wulff, Daniel Yilkiran, Deniz Maier, Hans-Jürgen Umlauf, Georg
description	In the present study, the surface conditions of workpieces used for dry-metal forming experiments were analyzed. Specifically, the effectiveness of different cleaning approaches was evaluated using x-ray photoelectron spectroscopy, infrared spectroscopy and wetting experiments. The best cleaning results were obtained using a CO2-based approach. CO2 acts as an effective solvent and as a result of the mechanical impact, it removes material from the surface. In fact, cleaning results were similar to those achieved by plasma cleaning. However, even simple cleaning with a towel and acetone left only a surface film of less than 100 nm. A residual oil film thickness below 100 nm on the work piece appears sufficient to mimic true dry-forming conditions in most cases. In order to determine cleanliness of surfaces used in dry-metal forming, an infrared spectroscopy-based oil film gauge along with a customized extended calibration curve turned out to provide for sufficiently accurate data.
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Specifically, the effectiveness of different cleaning approaches was evaluated using x-ray photoelectron spectroscopy, infrared spectroscopy and wetting experiments. The best cleaning results were obtained using a CO2-based approach. CO2 acts as an effective solvent and as a result of the mechanical impact, it removes material from the surface. In fact, cleaning results were similar to those achieved by plasma cleaning. However, even simple cleaning with a towel and acetone left only a surface film of less than 100 nm. A residual oil film thickness below 100 nm on the work piece appears sufficient to mimic true dry-forming conditions in most cases. 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subjects	Beschichtung cleaning coating lubricant Oberflächenanalyse Reinigung Schmiermittel schmiermittelfrei spectroscopy Spektroskopie surface analysis Trockenziehen
title	How dry is dry? - A critical analysis of surface conditions used in dry metal forming
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