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  4. Tobias Hüsemann
Dr.-Ing.

Details

Dr.-Ing. Tobias Hüsemann

Head of Abrasive Processes and Gear Technology

Departments: Abrasive Processes and Gear Technology , Manufacturing Technologies

Phone
+49 421 218 51190
Email
huesemann@iwt-bremen.de
Office
Leibniz-Institut für Werkstofforientierte Technologien - IWT
FZB - Room 0420
Badgasteiner Str. 3
28359 Bremen

Personal data

Research profiles

Machining with geometrically indeterminate cutting edge
Gear cutting
Cooling lubricant supply
Near-surface area influence
 

Academic education with degree

04/2013 – 03/2015M. Sc. Production Engineering (Mechanical and Process Engineering), specialization in "General Mechanical Engineering", University of Bremen
 
10/2009 – 04/2013B. Sc. Production Engineering (Mechanical and Process Engineering), specialization "Mechanical Engineering", University of Bremen
 

Scientific degrees

05/2021

Doctorate (Dr.-Ing.) in production engineering at the University of Bremen

Topic of the dissertation: Gear grinding of load-bearing capacity-optimized surface layer structures

Supervisor: Prof. Karpuschewski

Professional career since graduation

Since 08/2021Head of "Grinding and Gearing" department
 
04/2021 – 07/2021Acting head of "Grinding and Gear Cutting" department
 
04/2018 – 04/2021Team leader “Gear technology”
 
08/2015 – 03/2021Research scientist at the Leibniz Institute for Materials-oriented Technologies – IWT
("Manufacturing Technologies" department, “Abrasive Processes and Gear Technology” department)

Offices and Memberships

Since 2023Reviewer for the Humboldt Research Fellowship Program of the Alexander von Humboldt Foundation
 
Since 2022International Academy for Production Engineering (CIRP), research affiliate
 
Since 2022Reviewer for international peer-reviewed journals. Among others:
CIRP Journal of Manufacturing Science and Technology, Procedia CIRP

Latest 10 publications

  • Kuhlmann, G., Guba, N., Hüsemann, T., Heinzel, C. 2025.
    Comprehensive study of grinding burn limit and subsurface modifications in grinding with CBN and corundum abrasives. CIRP Journal of Manufacturing Science and Technology. 63 , 490-504. DOI: 10.1016/j.cirpj.2025.11.001.
  • Kuhlmann, G., Langenhorst, L., Hüsemann, T., Heinzel, C. 2025.
    Consideration of thermally induced material modification depth for grinding process cycle design. CIRP Annals - Manufacturing Technology. 74 (1), DOI: 10.1016/j.cirp.2025.04.026. OPEN ACCESS
  • Guba, N., Hüsemann, T., Heinzel, C. 2025.
    Influence of metal working fluid supply conditions on the thermal process limit for grinding of hardened steel. CIRP Journal of Manufacturing Science and Technology. 59 , 235-245. DOI: 10.1016/j.cirpj.2025.03.010.
  • Guba, N., Kuhlmann, G., Hüsemann, T., Heinzel, C. 2025.
    Thermische Prozessgrenzen beim Schleifen gehärteter Stähle.Moderne Schleiftechnologie und Feinstbearbeitung Moderne Schleiftechnologie und Feinstbearbeitung. Azarhoushang, B., Hrsg. KSF - Institute for Advanced Manufacturing, 1-10.
  • Hüsemann, T., Guba, N., Surm, H., Heinzel, C. 2024.
    Effect of alloy-specific case-hardening layers on the grindability of gears. CIRP Annals - Manufacturing Technology. 73 (1), 253-256. DOI: 10.1016/j.cirp.2024.04.030. OPEN ACCESS
  • Guba, N., Hüsemann, T., Heinzel, C. 2024.
    Einfluss der Kühlung und Schmierung auf thermische Prozessgrenzen beim Schleifen gehärteter Stähle. Schweizer Schleifsymposium, Zürich, Schweiz, 10.-11.09.2024. Zürich, Schweiz: 3, 2024,
  • Kuhlmann, G., Guba, N., Hüsemann, T., Heinzel, C. 2024.
    Untersuchung der Randzonentiefenmodifikation und Verlagerung von thermischen Prozessgrenzen beim Schleifen mit konventionellen und hochharten Schneidstoffen. Schweizer Schleifsymposium, Zürich, Schweiz, 10.-11.09.2024. Zürich, Schweiz: 3, 2024,
  • Guba, N., Hüsemann, T., Heinzel, C. 2024.
    Werkstofforientierte Prozessgestaltung beim Schleifen von Stahl. Schweizer Schleifsymposium, Zürich, Schweiz, 10.-11.09.2024. Zürich, Schweiz: 2024,
  • Hoja, S., Guba, N., Haupt, N., Surm, H., Hüsemann, T. 2024.
    Investigation of Dimensional and Shape Changes in Combined Surface Layer Heat Treatments of Gear Components Made of EN31CrMoV9 and EN42CrMo4. HTM Journal of Heat Treatment and Materials. 79 (4), 161-183. DOI: 10.1515/htm-2024-0014. OPEN ACCESS
  • Hüsemann, T., Heinzel, C. 2023.
    Potenziale zur werkstofforientierten Auslegung und Optimierung von Schleifprozessen. Moderne Schleiftechnologie und Feinstbearbeitung, Stuttgart, Deutschland, 04.05.2023. Azarhoushang, B., Hrsg. Stuttgart, Deutschland: 2023, ISBN: 978-3-8027-3180-8.