Publikationen

2023

J. F. Gerken, D. Biermann, D. Canini, P. Eberhard: „Analysis of the cooling lubricant flow in the area of cutting edges and guide pads during ejector deep hole drilling“ Procedia CIRP 117 (2023), S.408-413, doi: 10.1016/j.procir.2023.03.069

J. F. Gerken, D. Biermann, D. Canini, P. Eberhard: „Design of fluid flow optimized ejector drill heads for efficient metalworking fluid supply to the cutting zone“ Procedia CIRP 119 (2023), S.351-356, doi: 10.1016/j.procir.2023.06.195

B. Bergmann, B. Denkena, G. Poll, F. Pape, H. Liu, L. Ellersiek, L.: „Reibkoeffizientenermittlung in der Zerspanung auf Basis von Hochgeschwindigkeitsaufnahmen“. Tribologie und Schmierungstechnik Vol. 69 (2023), Nr. 5-6, S. 21-27

B. Bergmann, B. Denkena, G. Poll, F. Pape, H. Liu, L. Ellersiek: „Reibkoeffizientenermittlung in der Zerspanung auf Basis von Hochgeschwindigkeitsaufnahmen“, Extended Abstract, Tribologie Fachtagung 2022, Göttingen, 4 Seiten

H. C. Liu, F. Pape, Y. Zhao, L. Ellersiek, B. Denkena, G. Poll: „On the Elastohydrodynamic Film‑Forming Properties of Metalworking Fluids and Oil‑in‑Water Emulsions“. Tribology Letters 71:10 (2023)

B. Denkena, H. C. Liu, F. Pape, B. Bergmann, G. Poll, J. Schenzel, L. Ellersiek: „Simulation of local contact conditions in the secondary shear zone in dry and wet metal cutting“ Procedia CIRP 117 (2023). S. 293-298

Zabel, A.; Saelzer, J.; Elgeti, S.; Alammari, Y.; Berger, S.; Biermann, D. (2023) Fundamental tribological effects in lubricated cutting processes CIRP Annals DOI: 10.1016/j.cirp.2023.04.045

Lee, J.; Elgeti, S.; Saelzer, J.; Zabel, A. (2023) Development and Validation of a Micro-Tribology Model for the Chip Formation Zone. Procedia CIRP, 117, 317-322. https://doi.org/10.1016/j.procir.2023.03.054

F. Pape, G. Poll, L. Ellersiek, B. Denkena, H. Liu: Tribological Effects of Metalworking Fluids in Cutting Processes, Lubricants, Vol. 11(5), (2023)

Schaarschmidt, I.; Luther, F.; Steinert, P.; Richter, M.; Schubert, A.: Simulation of the magnetic field assisted electrochemical machining. In: Procedia CIRP, 2023, Band 117, S. 249–256, DOI: 10.1016/j.procir.2023.03.043

Fritsching, U.; Buss, L.; Tonn, T.; Schumski, L.; Gakovi, J.; Hatscher, J.-D.; Sölter, J.; Avila, K.; Karpuschewski, B.; Gerken, J.-F.; Wolf, T.; Biermann, D.; Menze, C.; Möhring, H.-C.; Tchoupe, E.; Heidemanns, L.; Herrig, T.; Klink, A.; Nabbout, K.; Sommerfeld, Martin; Luther, F.; Schaarschmidt, I.; Schubert, A.; Richter, M.: Flow Visualisation and Evaluation Studies on Metalworking Fluid Applications in Manufacturing Processes—Methods and Results
Processes 2023, 11(9), 2690. https://doi.org/10.3390/pr11092690

Wolf, T.; Fast, M.; Saelzer, J.; Brock, G.; Biermann, D., Turek, S.: Modeling and validation of a FEM chip formation simulation to expand the numerical work on discontinuous drilling of Inconel 718 Procedia CIRP 117 (2023), S. 32-37, 19th CIRP Conference on Modeling of Machining Operations, https://doi.org/10.1016/j.procir.2023.03.007

Florian Sauer, Andrea Codrignani, Matthias Haber, Kerstin Falk, Leonhard Mayrhofer, Corina Schwitzke , Michael Moseler , Hans-Jörg Bauer , Volker Schulze; 19th CIRP Conference on Modeling of Machining Operations, S.426–431, DOI: 10.1016/j.procir.2023.03.072

Fast, M., Mierka, O., Turek, S., Wolf, T., Biermann, D.: Mathematical Modeling of Coolant Flow in Discontinuous Drilling Processes with Temperature Coupling Proceedings in Applied Mathematics & Mechanics (2023) 22, ISSN 1617-7061,https://doi.org/10.1002/pamm.202200142

Wolf, T.; Fast, M.; Biermann, D., Turek, S.: Particle Tracking Velocimetry in high-speed analysis of coolant flow to validate a numerical model concerning discontinuous drilling of the nickel-base alloy Inconel 718 Procedia CIRP 118 (2023), S. 578-583, 16th CIRP Conference on Intelligent Computation in Manufacturing Engineering, CIRP ICME ’22, Italy. https://doi.org/10.1016/j.procir.2023.06.099

F. Pape, G. Poll, L. Ellersiek, B. Denkena, H. Liu: Tribological Effects of Metalworking Fluids in Cutting Processes, Lubricants, Vol. 11(5), (2023)

F. Wiesener, B. Bergmann , M. Wichmann , M. Eden, T. Freudenberg , A. Schmidt: Modeling of heat transfer in tool grinding for multiscale simulations. Procedia CIRP (CMMO) (2023)

M. Wichmann, M. Eden, D. Zvegincev, F. Wiesener, B. Bergmann, A. Schmidt: Modeling the wetting behavior of grinding wheels. International Journal of Advanced Manufacturing Technology (JAMT) (2023)

M. Eden, T. Freudenberg: „Effective Heat Transfer Between a Porous Medium and a Fluid Layer: Homogenization and Simulation“, Arxiv (2023). S. 1-30.

Saelzer, J.; Berger, S.; Zabel, A.; Biermann, D. (2023) Experimental Based Chip Formation Simulation for Cold Work Steel AISI D2 Procedia CIRP, 118, 543-548, https://doi.org/10.1016/j.procir.2023.06.093

 Lee, J.; Hube, S.; Elgeti, S. (2023) Neural networks vs. splines: advances in numerical extruder design. Engineering with Computers, 1-16. (Begutachteter Artikel)

Tonn, T.; Schumski, L.; Gakovi, J.; Hatscher, J.D.; Buss, L.; Sölter, J.; Avila, K.; Karpuschewski, B.; Fritsching, U. Minimum Quantity Lubrication (MQL) during Vibration-Assisted Drilling: Influence of the minimum quantity lubrication under consideration of the flow dynamics during. Jahrestreffen der DECHEMA-Fachgruppen Aerosoltechnik, Gasreinigung Mehrphasenströmung und Partikelmesstechnik. Universität Paderborn, 2023.

Buss, L.; Schumski, L.; Sölter, J.; Avila, K.; Karpuschewski, B.; Fritsching, U. Minimum Quantity Lubrication (MQL) multiphase dynamics of a vibration-assisted drilling process. Procedia CIRP 2023, 117, 420 – 425.

Elio Tchoupe; Daniel Lauwers; Lukas Heidemanns; Tim Herrig; Andreas Klink; Matthias Meinke; Michael Klass; Wolfgang Schröder (2023): Optical in Situ Analysis of Gas Bubble Evolution in Electrochemical Machining Based on Similarity Theory Using Particle Image Velocimetry. In : Proc. CIRP 117, pp. 257–262

Elio Tchoupe; Daniel Lauwers; Tim Herrig; Andreas Klink; Wolfgang Schröder (2023): In situ measurements of gas evolution in the transient working gap in precise electrochemical machining (PECM) based on dynamic similarity. In : Proc. of 19th INSECT, 13.-14. Nov. Saarbrücken (Full paper in Review)

Andreas Klink; Elio Tchoupe; Daniel Lauwers; Tim Herrig; Wolfgang Schröder (2023): Optical in situ analysis of gas evolution in the transient working gap in precise electrochemical machining (PECM) using high-speed recordings. In : Proc. of 19th INSECT, 13.-14. Nov. Saarbrücken (Full paper in Review)

Elio Tchoupe; Lukas Heidemanns; Ugur Küpper; Tim Herrig; Thomas Bergs; Andreas Klink (2023): Evaluation of process stability in precise electrochemical machining using machine learning models based on extracted features. In : Proc. CIRP ICME 2023 (In press)

Elio Tchoupe; Lukas Heidemanns; Ugur Küpper; Tim Herrig; Andreas Klink; Thomas Bergs (2022): Online monitoring of flushing quality in PECM based on electric process signals. In Proc. of 18th INSECT, 14.-15. Nov. Tokyo

Nabbout, K.; Sommerfeld, M.; Barth, E.; Uhlmann, E.; Bock-Marbach, B.; Kuhnert, J:Cooling Capacity of Oil-in-Water Emulsion under wet Machining Conditions. Proceedings of the 19th CIRP Conference on Modeling of Machining Operations (CMMO23) 117 (2023), S. 74 – 79

Suchde, P.; Kraus, H.; Kuhnert, J.; Bock-Marbach, B.; Meshfree one-fluid modelling of Liquid-VapourPhase transitions. Computers and Fluids. In Revision.

Luther, F.; Schaarschmidt, I.; Schubert, A; Richter, M.: Strömungscharakterisierung im Arbeitsspalt beim magnetfeldüberlagerten elektrochemischen Abtragen. In: tm – Technisches Messen, vol. 90, no. 5, 2023, pp. 268-281. DOI: 10.1515/teme-2022-0109

Menze, C., Itterheim, M., Möhring, HC., Stegmann, J., Kabelac, S. (2023). Fluid Dynamics and Influence of an Internal Coolant Supply in the Sawing Process. In: Liewald, M., Verl, A., Bauernhansl, T., Möhring, HC. (eds) Production at the Leading Edge of Technology. WGP 2022. Lecture Notes in Production Engineering. Springer, Cham. https://doi.org/10.1007/978-3-031-18318-8_26

Tismer, A.; Menze, C.; Straub, P.; Stegmann, J.; Riedelbauch, S.; Möhring, H.-C.; Kabelac, S.: Simulation-based evaluation of the 3D fluid dynamics of a coolant lubricant in the narrow-closed cutting gap during circular sawing, in: Procedia CIRP, 117, 2023, S. 402–407. doi.org/10.1016/j.procir.2023.03.068

Möhring, H.-C.; Menze, C.; Werkle K.: Internal coolant supply in circular sawing, CIRP Annals, 2023, ISSN 0007-8506, doi.org/10.1016/j.cirp.2023.04.055.

2022

J. F. Gerken, L. Schumski, T. Wolf, I. Iovkov, D. Biermann, B. Karpuschewski „Kühlschmierstoffeinsatz in Bohrprozessen“ VDI-Z, 163 (2021) 11-12. S. 62-64. ISSN 0042-1766, doi: 10.37544/0042-1766-2021-11-12-62

L. Ellersiek, C. Menze, F. Sauer, B. Denkena, H.-C. Möhring, V. Schulze: “Evaluation of methods for measuring tool-chip contact length in wet machining using different approaches”. Prod. Eng. Res. Devel. 16, S. 635-646, (2022), DOI: https://doi.org/10.1007/s11740-022-01127-w

G. Gonzalez Fernandez, F. Sauer, M. Plogmeyer, M. Gerstenmeyer, G. Bräuer, V. Schulze, „Effect of thermomechanical loads and nanocrystalline layer formation on induced surface hardening during orthogonal cutting of AISI4140“. Procedia CIRP Volume 108, Elsevier, S. 228–233. 10.1016/j.procir.2022.03.040 

F. Sauer, T. Arndt, V. Schulze, „Tool wear development in gear skiving of different quenched and tempered steels“ , S. 1331-1343, VDI-Society für Product and Process Design

T. Helmig, T. Göttlich, H. Liu, N. Nguyen, T. Bergs, R. Kneer, „Numerical Investigation on Evolving Chip Geometry and Its Impact on Convective Heat Transfer during Orthogonal Cutting Processes“ 9th International Conference on Fluid Flow, Heat and Mass Transfer, doi: 10.11159/ffhmt22.139

T. Göttlich, T. Helmig, N. Gerhard, T. Bergs, R. Kneer, „Experimental Investigation of Contact Heat Transfer at High Pressures“ 9th International Conference on Fluid Flow, Heat and Mass Transfer, doi: 10.11159/ffhmt22.140

N. Gerhard, T. Göttlich, D. Schraknepper, T. Bergs, „Experimental investigation on friction under machining conditions with cutting fluid supply“ Procedia CIRP 108 (2022) 378-383

J. F. Gerken, D. Biermann, M. Daniel, “Analysis of the cooling lubricant flow during ejector deep hole drilling by in-process volume flow measurements” Procedia CIRP 107C (2022) S. 227-232, doi: 10.1016/j.procir.2022.04.038

J. F. Gerken, D. Biermann, D. Canini, P. Eberhard: „Strömungscharakteristika beim Ejektortiefbohren“. wt Werkstattstechnik online, doi.org/10.37544/1436-4980-2022-06-77

Wolf, T.; Rinschede, T. Effizientes Bohren von Inconel 718. IndustryArena eMagazine, 1 (2022)

Fast, M.; Mierka O.; Turek, S. Mathematical Modeling of Coolant Flow in Drilling Processes with Temperature Coupling. Ergebnisberichte des Instituts für Angewandte Mathematik Nummer 651, Fakultät für Mathematik, TU Dortmund, 651, 2022

B. Denkena, A. Krödel, L. Ellersiek: “Influence of metal working fluid on chip formation and mechanical loads in orthogonal cutting”. Int J Adv Manuf Technol 118 (2022). S. 3005–3013

F. Pape, H. Liu, L. Ellersiek, A. Krödel, B. Denkena, G. Poll, “Influence of Metal Working Fluids in Cutting Processes”. Defect and Diffusion Forum Vol. 414 (2022). S. 51-57

B. Bergmann, B. Denkena, G. Poll, F. Pape, H. Liu, L. Ellersiek: „Reibkoeffizientenermittlung in der Zerspanung auf Basis von Hochgeschwindigkeitsaufnahmen“, Extended Abstract, Tribologie Fachtagung 2022, Göttingen, 4 Seiten

D. Zvegincev: „A Tikhonov approach to level set curvature computation“, Arxiv (2022). S. 1-45.

Guba N; Schumski L; Paulsen T; Karpuschewski B: Vibration-assisted deep hole drilling of the aluminum material AlMgSi0.5. CIRP Journal of Manufacturing Science and Technology, 36 (2022): 57 – 66

Falcone, M.; Buss, L.; Fritsching, U.: Eulerian–Lagrangian–Eulerian Simulations of Two-Phase Minimum Quantity Lubrication Flow in Internal Drill Bit Channels. Processes 10 (2022): 600.

Menze, C.; Reeber, T.; Möhring, H.-C., Stegmann, J., Kabelac, S.: Modelling of Sawing Processes with Internal Coolant Supply. Manufacturing Letters 64 (2022) 2, S. 605

Menze, C., Xiang, J., Stegmann, J., Tismer, A., Wack, J., Möhring, H.-C., Kabelac, S., & Riedelbauch S. (2022). Modelling of the flow behaviour in the narrow-closed cutting gap during sawing with internal coolant supply. euspen’s 22th International Conference & Exhibition, Geneva, CH, May/June 2022.

Menze, C.; Gutsche, D.; Eisseler, R.; Stehle, T.; Möhring, H.-C.; Stegmann, J.; Kabelac, S. (2022): Visualisierung der Spanbildung beim Sägen mit IKZ; Spanbildung im geschlossenen Schnittspalt beim Sägen mit innerer Kühlschmiermittelzufuhr. WT WerkstattsTechnik, 1/2, 50–54.

Storchak, M.; Drewle, K.; Menze, C.; Stehle, T.; Möhring, H.-C. Determination of the Tool–Chip Contact Length for the Cutting Processes. Materials 2022, 15, 3264. https://doi.org/10.3390/ma15093264

Möhring, H.-C.; Menze, C.; Drewle, K.; Fackelmann, D.; Stegmann, J.; Kabelac, S.: A novel approach of
simulating a sawing process with reduced simulation time. CIRP J Manuf Sci Technol.

Nabbout, K.; Sommerfeld, M.; Uhlmann, E.; Barth, E.; Kuhnert, J.: Interaction of Cooling Lubricant Droplets with Hot Metal Surfaces. Proceedings of the 7th World Congress of Momentum, Heat and Mass Transfer MHMT’22 (2022), S. 154-1 – 154-8 .

Nabbout, K.; Pasternak, L.; Sommerfeld, M.; Bock-Marbach, B.; Kuhnert, J.; Barth, E.; Uhlmann, E.: Heat Transfer Study for Oil-in-Water Emulsion Jets Impinging onto hot Metal Surface. Proceeding of the 8th World Congress on Mechanical, Chemical, and Material Engineering (MCM’22) (2022), S. 190-1 – 190-8.

Uhlmann, E.; Barth; Nabbout, K.; Sommerfeld, M.; Eisenträger, A.; Kuhnert, J.; Dovgal, A.: Cooling lubricant boundary conditions for wet turning simulations. PROC CIRP ICME22. In press.

Frotscher, O.; Schaarschmidt, I.; Lauwers, D.; Paul, R.; Meinke, M.; Steinert, P.; Schubert, A.; Schröder, W.; Richter, M.: Investigation of Lorentz force–induced flow of NaNO3-electrolyte for magnetic field–assisted electrochemical machining. In: Int J Adv Manuf Technol, 2022, 121, S. 937–947, DOI: 10.1007/s00170-022-09349-z

Luther, F.; Schaarschmidt, I.; Schubert, A.; Richter, R.: Strömungscharakterisierung im Spalt beim magnetfeldüberlagerten elektrochemischen Abtragen. Tagungsband 29. Fachtagung Experimentelle Strömungsmechanik; ISBN 978-3-9816764-8-8

E. Tchoupe; L. Heidemanns; A. Klink; T. Herrig; M. Klaas; D. Lauwers; W. Schröder (2022): Experimental setup for the investigation of the transport of different gas bubble sizes during electrochemical machining based on similarity theory using particle image velocimetry. In: Procedia CIRP, 113. Jg., 2022, S. 392–397. DOI: 10.1016/j.procir.2022.09.189

B. Bergmann, B. Denkena, L. Ellersiek: „Kühlschmierstoff-Einsatz unter der Lupe“, Diamond Business 4/2022, S. 54-55

Schaarschmidt, I.; Steinert, P.; Schubert, A.: Influence of electrolyte flow conditions on magnetic-field assisted electrochemical machining. In: Proceedings of the 18th International Symposium on Electrochemical Machining Technology, 2022, S. 165–170, Hrsg.: Koyano, T.; Uchiyama, M., ISBN: 978-4-915698-21-7

2021

Saelzer, J.; Zabel, A.; Poll, G.; Pape, F.; Liu, H.; Denkena, B.; Ellersiek, L.; Elgeti, S.; Lee, J. (2022): Effizientes Schmieren der Spanbildungszone, Gezielter Einsatz von Kühlschmierstoffen zur tribologischen Optimierung von Zerspanprozessen. wt Werkstattstechnik online 112 1/2, S. 44-49. (Begutachteter Artikel)

Iovkov, I.; Saelzer, J.; Alammari, Y.; Bücker, M.; Wolf, T.; Biermann, D.. Ressourcenschonender Einsatz von Hartmetallwerkzeugen für die energieeffiziente Zerspannung. Pulvermetallurgie – nach¬hal¬ti¬ge Lö¬sun¬gen und neue Märkte, Tagungsband 39.Hagener Symposium, Fachverband Pulvermetallurgie (2021), S.293-318

F. Sauer, M. Gerstenmeyer, V. Schulze „Temperaturverteilung beim Wälzschälen/Temperature distribution during power skiving“, S. 786-791. 10.37544/1436-4980-2021-11-12-16

J. F. Gerken, D. Biermann, D. Canini, P. Eberhard, “Effizientes Ejektortiefbohren“ mav Innovation in der spanenden Fertigung, 5 (2021). S. 46-48. , ISSN 0343-043X

J. F. Gerken, D. Biermann, D. Canini, P. Eberhard: “Modeling of the Fluid Flow and Design of an Experimental Test Stand for Ejector Deep Hole Drilling Processes” Production at the Leading Edge of Technology 10 (2021). S. 186-194, doi: 10.1007/978-3-030-78424-9_21

D. Canini, P. Eberhard, J. F. Gerken, D. Biermann, “Modelling and experimental analysis of the cooling liquid flow in ejector deep drilling processes” VII International Conference on Particle-Based Methods, (PARTICLES 2021), Hamburg, 4.10.2021. doi: 10.23967/particles.2021.008

Wolf, T.; Iovkov, I.; Biermann, D.. Discontinuous Drilling of Inconel 718. MM Science Journal, Special Issue on ICTIMT2021, 3 (2021), doi: 10.17973/MMSJ.2021_7_2021061

Wolf, T.; Iovkov, I.; Biermann, D. Influence of a Discontinuous Process Strategy on Microstructure and Microhardness in Drilling Inconel 718. Journal of Manufacturing and Materials Processing, 5 (2021) 43, doi: 10.3390/jmmp5020043

F. Pape, H. Liu, G. Poll, D. Lipinsky, D. Mallach, H. Arlinghaus, L. Ellersiek, B. Denkena: “Investigations on the influence of metalworking fluids (MWFs) on friction and tribo film formation”. Poster. Conference on Surface and Solid State Analytics (2021), Freiberg, DOI:10.13140/RG.2.2.14093.46568

F. Pape, H. Liu, T. Matthias, N. Heimes, B.-A. Behrens, G. Poll: “Mechanical property determination for cutting tool and workpiece using indentation and investigations on the boundary film formed in sliding contacts with emulsions”, Poster, Nanobruecken Conference (2021), Online, DOI:10.13140/RG.2.2.31717.52965

M.-A. Dittrich, B. Denkena, M. Wichmann: „Parametric grinding wheel model for material removal simulation of tool grinding processes“, Procedia CIRP 102 (2021), S. 381-386

Saelzer, J.; Alammari, Y.; Zabel, A.; Biermann, D.; Lee, J.; Elgeti, S. (2021): Characterisation and modelling of friction depending on the tool topography and the intermediate medium. Procedia CIRP 102, S. 435-440

Afrasiabi, M.; Saelzer, J.; Berger, S.; Iovkov, I.; Klippel, H.; Röthlin, M.; Zabel, A.; Biermann, D.; Wegener, K. (2021): A Numerical-Experimental Study on Orthogonal Cutting of AISI 1045 Steel and Ti6Al4V Alloy: SPH and FEM Modeling with Newly Identified Friction Coefficients. Metals 11, 1683, doi: 10.3390/met11111683

Schumski L; Paulsen T; Sölter J; Karpuschewski B: Finite element simulation of low frequency vibration-assisted drilling with modification of oscillation modes. Procedia CIRP, 102 (2021): 168 – 173

Menze, C.; Wegert, R.; Reeber, T.; Erhardt, F.; Möhring, H.-C.; Stegmann, J.; Kabelac, S. (2021): Numerical methods for the simulation of segmented chips and experimental validation in machining of Ti-6Al-4V. In: MM Science Journal 2021 (5), S. 5052–5060. DOI: 10.17973/MMSJ.2021_11_2021152.

Uhlmann, E.; Barth, E.; Quellhorst, A.; Seifarth, T.; Kuhnert, J.; Nabbout, K.; Sommerfeld, M.: Fully coupled wet cylindrical turning simulation using the Finite-Pointset-Method. PROC CIRP 102 (2021), S. 43 ‑ 48.

Luther, F.; Schaarschmidt, I.; Schubert, A.; Richter, R.: Strömungscharakterisierung im Spalt beim magnetfeldüberlagerten elektrochemischen Abtragen. Tagungsband 29. Fachtagung Experimentelle Strömungsmechanik; ISBN 978-3-9816764-8-8

B. Rommes; D. Lauwers; T. Herrig; M. Meinke; W. Schröder; Andreas Klink (2021): Concept for the experimental and numerical study of fluid-structure interaction and gas transport in Precise Electrochemical Machining. In : Proc. CIRP 102, pp. 204–209. DOI: 10.1016/j.procir.2021.09.035.

D. Lauwers; M. Meinke; W. Schröder (2021): A coupled lattice Boltzmann/finite volume method for turbulent gas-liquid bubbly flows. In : Proc. of 6th ECCOMAS YIC. DOI: 10.4995/YIC2021.2021.12211.

E. Tchoupe; L. Heidemanns; T. Herrig; A. Klink; D. Lauwers; W. Schröder (2021): Study of the multiphase electrolyte flow during electrochemical machining (ECM) using dynamic similarity. In : Proc. of 17th INSECT, 25.-26. Nov., KU Leuven.

2020

Saelzer, J.; Berger, S.; Zabel, A.; Biermann, D. (2020): Untersuchung der Reibung in der Spanbildungszone bei der Zerspanung von C45 mit unterschiedlich präparierten Hartmetallwerkzeugen, WB Werkstatt + Betrieb 6, S.18