Dipl.-Ing. Daniel Weber
Bulding 42, Room 473
Phone: +49 631 205 5911
Fax: +49 631 205 3238
- Research Engineer since September 2017
- Research Topic: Machining Technology
D. Weber, B. Kirsch, J.E. Jonsson, C.R. D’Elia, B.S. Linke, M.R. Hill, J.C. Aurich: Simulation based compensation techniques to minimize distortion of thin-walled monolithic aluminum parts due to residual stresses. CIRP Journal of Manufacturing Science and Technology 38 (2022): S. 427-441.
C.R. Chighizola, C.R. D’Elia, D. Weber, B. Kirsch, J.C. Aurich, B.S. Linke, M.R. Hill: Intermethod Comparison and Evaluation of Measured Near Surface Residual Stress in Milled Aluminum. Experimental Mechanics 61 (2021): S. 1309–1322.
D. Weber, B. Kirsch, K. Gutzeit, B.S. Linke, M.R. Hill, J.C. Aurich: Oberflächenmorphologie gefräster Aluminiumwerkstücke. ZWF - Zeitschrift für wirtschaftlichen Fabrikbetrieb 116/7-8 (2021): S. 452-455.
D. Weber, B. Kirsch, C.R. Chighizola, J.E. Jonsson, C.R. D’Elia, B.S. Linke, M.R. Hill, J.C. Aurich: Analysis of machining-induced residual stresses of milled aluminum workpieces, their repeatability, and their resulting distortion. The International Journal of Advanced Manufacturing Technology 115 (2021): S. 1089–1110.
K. Gutzeit, D. Weber, S. Basten, B. Kirsch, J.C. Aurich: Improving the surface morphology by adjusting the cutting parameters during cryogenic milling of Ti-6Al-4V. Proceedings of the 21th Machining Innovations Conference for Aerospace Industry (2021): S. 24-31.
J.E. Jonsson, M.R. Hill, C.R. Chighizola, C.R. D’Elia, B.S. Linke, D. Weber, B. Kirsch, J.C. Aurich: Milling-Induced Residual Stress and Distortion Under Variations of Bulk Residual Stress. Proceedings of the 31st ASM Heat Treating Society Conference (2021): S. 96-99.
D. Weber, B. Kirsch, C.R. Chighizola, C.R. D’Elia, B.S. Linke, M.R. Hill, J.C. Aurich: Investigation on the scale effects of initial bulk and machining induced residual stresses of thin walled milled monolithic aluminum workpieces on part distortions: experiments and finite element prediction model. Procedia CIRP 102 – Proceedings of the 18th CIRP Conference on Modeling of Machining Operations (2021): S. 337-342.
D. Weber, B. Kirsch, C.R. Chighizola, J.E. Jonsson, C.R. D’Elia, B.S. Linke, M.R. Hill, J.C. Aurich: Finite Element Simulation Combination to Predict the Distortion of Thin Walled Milled Aluminum Workpieces as a Result of Machining Induced Residual Stresses. Open Access Series in Informatics (OASIcs) 89 - 2nd International Conference of the DFG International Research Training Group 2057 – Physical Modeling for Virtual Manufacturing (iPMVM 2020)(2021): S. 11:1-11:21.
D. Weber, B. Kirsch, C.R. D’Elia, B.S. Linke, M.R. Hill, J.C. Aurich: Concept to analyze residual stresses in milled thin walled monolithic aluminum components and their effect on part distortion. Production at the leading edge of technology - Proceedings of the 9th Congress of the German Academic Association for Production Technology (2019): S. 287-296.