• seit Dezember 2018 Wissenschaftlicher Mitarbeiter am FBK
• Forschungsschwerpunkt: Mikro- und Ultrapräzisionsbearbeitung

J.C. Aurich, N. Altherr, S. Kieren-Ehses, B. Kirsch, T. Mayer: Creating Surface Morphologies by Micro Milling and Micro Grinding. Component Surfaces – Manufacturing-Morphology-Property Relationships (2023): S. 67-95. 10.1007/978-3-031-35575-2_4

T. Mayer, S. Kieren-Ehses, B. Kirsch, J.C. Aurich: Comparison of different 3Y-TZP substrates for the manufacture of all-ceramic micro end mills with respect to the cutting edge radius and the tool wear. Manufacturing Letters 38 (2023): S. 44-46. 10.1016/j.mfglet.2023.09.001.

S. Kieren-Ehses, T. Mayer, B. Kirsch, J.C. Aurich: Influence of the parameters of a minimum quantity lubrication system on micro milling process results. The International Journal of Advanced Manufacturing Technology (2023): S. 5279-5292. 10.1007/s00170-023-11333-0

T. Mayer, S. Kieren-Ehses, B. Kirsch, J.C. Aurich: Herstellung und Anwendung vollkeramischer Mikroschaftfräser. ZWF - Zeitschrift für wirtschaftlichen Fabrikbetrieb 117/7-8 (2022).

J.C. Aurich, S. Kieren-Ehses, T. Mayer, M. Bohley, B. Kirsch: An investigation of the influence of the coating on the tool lifetime and surface quality for ultra-small micro end mills with different diameters. CIRP Journal of Manufacturing Science and Technology 37 (2022): S. 92-102.

S. Kieren-Ehses, T. Mayer, B. Kirsch, J.C. Aurich: Indirect workpiece cooling system for micro milling based on a Peltier element. Proceedings of the 23rd international conference of the euspen (2023): S. 473-476. ISBN: 978-1-9989991-3-2

T. Mayer, A. Lange, A. Schulz, B. Kirsch, J.C. Aurich: Development of an angular position detection method to accurately characterize high speed spindles without encoders. Proceedings of the 23rd euspen International Conference (2023): S. 215-219.

T. Mayer, S. Kieren-Ehses, B. Kirsch, J.C. Aurich: Micro milling of brass and commercially pure titanium with all-ceramic micro end mills made from four different ceramic tool substrates. Proceedings of the 22nd euspen International Conference (2022): S. 455-458.

T. Mayer, S. Kieren-Ehses, B. Kirsch, J.C. Aurich: Dressing of grinding wheels for the manufacture of all-ceramic micro end mills. Proceedings of the 22nd euspen International Conference (2022): S. 479-482.

S. Kieren-Ehses, T. Mayer, B. Kirsch, J.C. Aurich: Atomic force microscope for in situ micro end mill characterization - Part I: Integration into a desktop sized machine tool. Proceedings of the 21th euspen International Conference (2021): S. 463‑466.

T. Mayer, S. Kieren-Ehses, B. Kirsch, J.C. Aurich: Atomic force microscope for in situ micro end mill characterization - Part II: Development of an algorithm to characterize the cutting edge radius of micro end mills. Proceedings of the 21th euspen International Conference (2021): S. 493‑496.

M. Heintz, T. Mayer, B. Kirsch, J.C. Aurich: Tool/workpiece contact detection via acoustic emission in micro grinding. Proceedings of the 20th euspen International Conference (2020): S. 587‑588.

T. Mayer, S. Kieren-Ehses, M. Heintz, B. Kirsch, J.C. Aurich: Manufacture of novel all‐ceramic micro end mills. Proceedings of the 20th euspen International Conference (2020): S. 113-114.

S. Kieren-Ehses, M. Bohley, T. Mayer, B. Kirsch, J.C. Aurich: Effect of high spindle speeds on micro end milling of commercially pure titanium. Proceedings of the 20th euspen International Conference (2020): S. 63‑66.