Finding New Opportunities: Technology Push Approach

  • C. Wagner
  • L. Ahmels
  • S. Gramlich
  • P. Groche
  • V. Monnerjahn
  • C. Müller
  • M. Roos
Chapter

Abstract

Realizing the benefits of a manufacturing technology is a key challenge that manufacturing engineers and designers face that exceeds conventional aspects of manufacturability and manufacturing compliant solutions. The goal is to comprehensively utilize manufacturing potential through manufacturing-induced properties to find new opportunities for innovative product and process solutions.

Keywords

Technology push Product innovation Process innovation Function integration Manufacturing process integration Mechanical joining by linear flow splitting Multifunctional linear motion system Plasma nitriding 

References

  1. Bödecker J (2013) Randschichtmodifikation von integral verzweigten Blechprofilen mit UFG Gradientengefüge. Dissertation, TU DarmstadtGoogle Scholar
  2. Dietz P, Grünendick T (2004) Umformen verbindet Fügeverfahren für Welle-Nabe-Verbindungen. Institutsmitteilung (29), IMW, TU ClausthalGoogle Scholar
  3. Groche P, Monnerjahn V (2017) Remote joining by plastic deformation, Journal of Materials Processing and Technology, 2017 (submitted)Google Scholar
  4. Groche P, Türk M (2011) Smart structures assembly through incremental forming. CIRP Ann Manufactur Technol 60(1):21–24CrossRefGoogle Scholar
  5. Groche P, Vucic D, Jöckel M (2007) Basics of linear flow splitting. J Mater Process Technol 183(2–3):249–255CrossRefGoogle Scholar
  6. Groche P, Hohmann J, Kessler T, Schreiner J, Krech M, Duschka A, Monnerjahn V, Ćorić M (2015) Industrie 4.0—Forschung am PtU. In: 12. Umformtechnisches Kolloquium Darmstadt, Darmstadt, 10–11 June 2015Google Scholar
  7. Groche P, Wohletz S, Mann A, Krech M, Monnerjahn V (2016) Conjoint forming—technologies for simultaneous forming and joining. Mater Sci Eng 119Google Scholar
  8. Hirsch N, Mauf M, Birkhofer H (2008) Systematic generation of innovative sheet metal profiles using modified TRIZ. In: Roosimölder L (ed) Proceedings of NordDesign 2008 Conference, Tallinn, Estonia, 21–23 August 2008Google Scholar
  9. Karin I, Hößbacher J, Lommatzsch N, Birkhofer H, el Doski C, Hanselka H (2010) Spaltprofilierte Linearführungen auf dem Prüfstand. In: Groche P (ed) Tagungsband 3. Zwischenkolloquium SFB 666, Darmstadt, 29–30 September 2010, p 111–116Google Scholar
  10. Kolkwitz B, Foeckerer T, Heinzel C, Zaeh MF, Brinksmeier E (2011) Experimental and numerical analysis of the surface integrity resulting from outer-diameter grind-hardening. Procedia Eng 19:222–227CrossRefGoogle Scholar
  11. Lommatzsch N, Gramlich S, Birkhofer H (2011a) Linear guides of linear flow split components: Development and integration of potential additional functions. In: Proceedings of the 3rd International Conference on Research into Design Engineering, Bangalore, India, p 439–446Google Scholar
  12. Lommatzsch N, Gramlich S, Birkhofer H, Bohn A (2011b) Linear flow-split linear guides: inflating chambers to generate breaking force. In: Culley SJ, Hicks BJ, McAloone TC, Howard TJ, Lindemann U (eds) Proceedings of the 18th International Conference on Engineering Design (ICED 11), Lyngby, Copenhagen, 15–19 August 2011, p 337–346Google Scholar
  13. Ludwig C, Hammen V, Groche P, Kaune V, Müller C (2013) Fertigung qualitätsoptimierter Spaltprofile durch Variation schnell änderbarer Prozessgrößen und deren Einfluss auf die Materialeigenschaften. Mat-wiss u Werkstofftech 44(7):601–611CrossRefGoogle Scholar
  14. Marré M, Brosius A, Tekkaya AE (2008) New aspects of joining by compression and expansion of tubular workpieces. Int J Mater Form 1(S1):1295–1298CrossRefGoogle Scholar
  15. Monnerjahn V (2015) Fügen per Spaltprofilierung. Umformtechnik: Bleche Rohre Profile (2)Google Scholar
  16. Mori K-i, Bay N, Fratini L, Micari F, Tekkaya AE (2013) Joining by plastic deformation. CIRP Annals—Manufacturing Technology 62(2):673–694CrossRefGoogle Scholar
  17. Müller C, Bohn E, Bruder E, Hirsch N, Birkhofer H (2008) Linear flow splitting: profile properties and their implementations in product development. In: Proceedings of the ICTP 2008, 9th International Conference on Technology of Plasticity, Gyeongju, 7–11 September 2008, p 774–779Google Scholar
  18. Pahl G, Beitz W, Feldhusen J, Grote KH (2007a) Engineering design: a systematic approach, 3rd edn. Springer, LondonCrossRefGoogle Scholar
  19. Pahl G, Beitz W, Feldhusen J, Grote KH (2007b) Konstruktionslehre: Grundlagen erfolgreicher Produktentwicklung, 7th edn. Springer, BerlinGoogle Scholar
  20. Schuster J, Bruder E, Müller C (2012) Plasma nitriding of steels with severely plastic deformed surfaces. J Mater Sci 47(22):7908–7913CrossRefGoogle Scholar
  21. Wagner C, Gramlich S, Kloberdanz H (2014) Entwicklung innovativer Produkte durch Verknüpfung von Funktionsintegration und Fertigungsprozessintegration. In: Krause D, Paetzold K, Wartzack S (eds) Proceedings of the 24th Symposium Design for X, Bamberg, 1–2 October 2014, p 361–372Google Scholar
  22. Wagner C, Gramlich S, Monnerjahn V, Groche P, Klobderanz H (2015) Technology pushed process and product innovation: Joining by Linear Flow Splitting. In: Erkoyuncu J (ed) Procedia CIRP, vol 37, CIRPe 2015—Understanding the life cycle implications of manufacturing, p 83–88Google Scholar
  23. Wäldele M, Hisch N, Birkhofer H (2007) Providing properties for the optimization of branched sheet metal products. In: Proceedings of the International Conference on Engineering Design (ICED 07), ParisGoogle Scholar

Copyright information

© Springer International Publishing AG 2017

Authors and Affiliations

  • C. Wagner
    • 1
  • L. Ahmels
    • 2
  • S. Gramlich
    • 1
  • P. Groche
    • 3
  • V. Monnerjahn
    • 3
  • C. Müller
    • 2
  • M. Roos
    • 1
  1. 1.Institute for Product Development and Machine Elements (pmd), Technische Universität DarmstadtDarmstadtGermany
  2. 2.Physical Metallurgy (PhM), Technische Universität DarmstadtDarmstadtGermany
  3. 3.Institute for Production Engineering and Forming Machines (PtU), Technische Universität DarmstadtDarmstadtGermany

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