Daniel Aurich
Technical University of Dortmund
6 Papers
2 Citations
Daniel Aurich is an academic researcher from Technical University of Dortmund. The author has contributed to research in topics: High-power impulse magnetron sputtering & Thin film. The author has an hindex of 2, co-authored 6 publications.
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Papers
Influence of the bias-voltage, the argon pressure and the heating power on the structure and the tribological properties of HiPIMS sputtered MoSx films
Wolfgang Tillmann,Alexandra Wittig,Dominic Stangier,Henning Moldenhauer,Carl-Arne Thomann,J. Debus,Daniel Aurich,Andreas Bruemmer +7 more
TL;DR: In this article, the effect of the bias voltage, temperature and heating power on the growth of the (100) edge plane of a MoSx thin film has been investigated by systematically changing the bias-voltage, the argon pressure and the heating power.
24
Temperature-dependent tribological behavior of MoSx thin films synthesized by HiPIMS
Wolfgang Tillmann,Alexandra Wittig,Dominic Stangier,Henning Moldenhauer,Carl-Arne Thomann,J. Debus,Daniel Aurich,Andreas Bruemmer +7 more
TL;DR: In this article, the friction and wear behavior of sputtered molybdenum disulfide films at elevated temperatures was investigated against 100Cr6 counterparts, and it was shown that the friction increases with temperature up to 400°C.
11
Simulations and Experimental Investigations on the Acoustic Characterization of Centrifugal Pumps of Different Specific Speed
Christian Lehr,Andreas Linkamp,Daniel Aurich,Andreas Brümmer +3 more
- 02 Jul 2019
TL;DR: In this paper, a one-dimensional numerical model for transient time-domain simulation is presented, which takes into account the pump geometry as well as the volutes' structural behaviour by means of the local effective speed of sound.
2
Investigation of the Tribofilm Formation of HiPIMS Sputtered MoSx Thin Films in Different Environments by Raman Scattering
Wolfgang Tillmann,Alexandra Wittig,Dominic Stangier,Carl-Arne Thomann,Henning Moldenhauer,J. Debus,Daniel Aurich,Andreas Brümmer +7 more
TL;DR: In this article, the influence of the surface pressure and sliding velocity in air, argon and nitrogen environments on the generation of the third body particles and the formation of randomly oriented MoSx thin films is investigated.