Open Access
MATEC Web of Conferences
Volume 21, 2015
4th International Conference on New Forming Technology (ICNFT 2015)
Article Number 01001
Number of page(s) 12
Section Keynote Papers
Published online 10 August 2015
  1. H.E. Friedrich, Leichtbau in der Fahrzeugtechnik, Springer Vieweg, Wiesbaden, Germany (2013) [CrossRef]
  2. R. Golloch, Downsizing bei Verbrennungsmotoren – Ein wirkungsvolles Konzept zur Kraftstoffverbrauchssenkung, Springer, Berlin, Germany (2005)
  3. M. Merklein, J. M. Allwood, B.-A. Behrens, A. , Brosius, H. Hagenah, K. Kuzman, K. Mori, A.E. Tekkaya, A. Weckenmann, Bulk forming of sheet metal, Annals of the CIRP 61, 2, pp. 725–745 (2012) [CrossRef]
  4. M. Merklein, A.E. Tekkaya, A. Brosius, S. Opel, J. Koch, Overview on Sheet-Bulk Metal Forming Processes, Proceedings of the 10th International Conference on Technology of Plasticity, pp. 1109–1114 (2011)
  5. DIN 8582, Manufacturing processes forming – Classification; Subdivision, terms and definitions, alphabetical index (2003)
  6. M. Merklein, H. Hagenah, T. Schneider, Sheet-Bulk Metal Forming Processes – State of the Art and its Perspectives. TTP 2013 – Tools and Technologies for Processing Ultra High Strength Materials, pp. 197–204 (2013)
  7. G. Herold, S. Abdel-Kader, Einfluß der Prozessparameter beim Drückwalzen auf den Werkstofffluß und die Produktqualität, Proceedings 5. Sächsische Fachtagung Umformtechnik, 26, pp. 1–15 (1998)
  8. T. Altan, A.E. Tekkaya, Sheet Metal Forming Processes and Applications, ASM International, 978-1-61503-844-2 (2012)
  9. Y. Xu, S.H. Zhang, P. Li, K. Yang, D.B. Shan, Y. Lu, 3D Rigid-Plastic FEM Numerical Simulation on Tube Spinning, Journal of Material Processing Technology 113, pp. 710–713 (2001) [CrossRef]
  10. R. Kopp, Der Werkstofffluß beim Dreirollen-Drückwalzen, Archiv für das Eisenhüttenwesen 5, pp. 397–404 (1972)
  11. P. Groche, D. Fritsche, Application and Modelling of Flow Manufacturing Processes for Internally Geared Wheels, International Journal of Machine Tools & Manufacture 46, pp. 1261–1265 (2006) [CrossRef]
  12. C.C. Wong, A. Danno, K.K. Tong, M.S. Yong, Cold Rotary Forming of Thin-Walled Component from Flat-Disc Blank. Journal of Materials Processing Technology 208, pp. 53–62 (2008) [CrossRef]
  13. M. Runge, Drücken und Drückwalzen, Verlag moderne Industrie AG, Landsberg, Germany. (1993)
  14. Winkelmann MSR Technology GmbH und Co. KG, (Update March 23th 2015)
  15. Z. Marciniak, A rocking-die technique for cold-forming operations, Machinery and production engineering 117, pp. 792–797 (1970)
  16. J.R. Maicki, Orbital forging, Metallurgia and Metal Forming, pp. 265–269 (1977)
  17. K. Lange, Umformtechnik, Handbuch für Industrie und Wissenschaft, Band 2: Massivumformung, 2nd edition. Springer-Verlag, Berlin, Germany (1988) [CrossRef]
  18. H.-K. Oh, S. Choi, A Study on Center Thinning in the Rotary Forging of a Circular Plate, Journal of Materials Processing Technology 66, pp. 101–106 (1997) [CrossRef]
  19. X. Han, L. Hua, Investigation on contact parameters in cold rotary forging using a 3D FE method, Int. Journal of Advanced Manufacturing Technology 62, 9–12, pp. 1087–1106 (2012) [CrossRef]
  20. P.M. Standring, Characteristics of Rotary Forging as an Advanced Manufacturing Tool, Proceedings of the Institution of Mechanical Engineers Part B 215, pp. 935–945 (2001) [CrossRef]
  21. Heinrich Schmid Maschinen- und Werkzeugbau AG, Umformtechnik, 2, pp. 28–31 (2006)
  22. J.J. Sheu, C.H. Yu, The Cold Orbital Forging Die and Process Design of a Hollow-ring Gear Part; Proceedings of the 35th International Matador Conference 6, pp. 111–114 (2007)
  23. T. Schneider, M. Merklein, Manufacturing of geared sheet metal components by a single-stage Sheet-bulk metal forming process, Proc. Conf. Competitive Manufacturing, pp. 177–182 (2013)
  24. D. Gröbel, J. Koch, U. Vierzigmann, U. Engel, M. Merklein, M, Investigations and approaches on material flow of non-uniform arranged cavities in sheet bulk metal forming processes, Procedia Engineering 81, pp. 401–406 (2014) [CrossRef]
  25. Y. Oyachi, J.M. Allwood, Characterizing the Class of Local Metal Sheet Thickening Processes, Steel research international 10, pp. 1025–1030 (2011)
  26. U. Vierzigmann, M. Merklein, U. Engel, Tailored Surfaces in Sheet-Bulk Metal Forming, Proc. 4th ICTMP Int. Conf. on Tribology im Manuf. Processes 2, pp. 541–550 (2010)
  27. R. Hense, P. Kersting, U. Vierzigmann, M. Löffler, D. Biermann, M. Merklein, C. Wels, High-Feed Milling of Tailored Surfaces for Sheet-Bulk Metal Forming Tools, Production Engineering, (DOI) 10.1007/s11740-014-0597-0: Springer (2014)
  28. H. Hetzner, W. Tillmann, S. Tremmel, J. Herper, Tribologische Dünnschichten für die Blechmassivumformung, 1. Workshop Blechmassivumformung, pp. 139–158 (2011)
  29. U. Vierzigmann, J. Koch, M. Merklein, U. Engel, Material Flow in Sheet-Bulk Metal Forming, Key Eng. Mater. 504-506, pp. 1035–1040 (2012) [CrossRef]
  30. T. Schneider, U. Vierzigmann, M. Merklein, Analysis of Varying Properties of Semi-finished Products in Sheet-bulk Metal Forming of Functional Components, NUMISHEET 2014: 9th Int. Conf. and Workshop on Numerical Simulation of 3D Sheet Metal Forming Processes, pp. 930–933 (2014)
  31. M. Löffler, T. Schneider, U. Vierzigmann, U. Engel, M. Merklein, Locally Adapted Tribological Conditions as a Method for Influencing the Material Flow in Sheet-Bulk Metal Forming Processes, Key Engineering Materials 639, pp. 267–274 (2015) [CrossRef]
  32. S. Opel, Herstellung prozessangepasster Halbzeuge mit variabler Blechdicke durch die Anwendung von Verfahren der Blechmassivumformung, Meisenbach Verlag, Erlangen, Germany (2013)
  33. T. Schneider, M. Merklein, Sheet-bulk metal forming – potential and challenges of a new class of forming processes, Proceedings of PLASTICITY ’15: The Twenty First International Symposium on Plasticity and its Current Applications, pp. 169–171 (2015)

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