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Merging Technologies for Optics

  • Conference paper
Towards Synthesis of Micro-/Nano-systems

Abstract

The market for optical and optoelectronical components is a rapidly growing global market. The development of new manufacturing technologies for the fabrication of optics enables the fabrication of optical components with nanometer roughness and submicron form accuracy for mass markets like digital cameras, video projectors and automotive applications, even for low cost applications with short product life cycles. Therefore, the process chain for fabricating optical high quality mass products has to be deterministic flexible as well as in order to suppress cost intensive and time consuming iterations within the manufacturing chain. This paper introduces several approaches to take up this challenge.

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References

  1. Bergh AA, (2006) Commercial Applications of Optoelectronics. Photonics Spectra, 2:54–61

    Google Scholar 

  2. Fischer AL, (2006) Multifaceted Innovation Drives-Machine Vision Industry. Photonics Spectra 4:36

    Google Scholar 

  3. Yamamoto H, (2004) Manufacturing Process Innovation in the Precision Industry. Proceedings of the 11th IMEC Conference:223–230

    Google Scholar 

  4. Evans CJ, Paul E, Mangamelli A, McGlauflin ML, (1996) Chemical aspects of tool wear in single point diamond turning. Precision Engineering 18/1:4–19

    Article  Google Scholar 

  5. Brinksmeier E, Autschbach L, Weck M, Winterschladen M, (2004) Closed Loop Manufacturing of Optical Molds using an Integrated Simulation Interface. Proceedings of the euspen International Conference-Glasgow, Scotland (UK):215–217

    Google Scholar 

  6. Schmitt R, Dörner D, Michaeli W, Forster J, (2005) Interferometrische Formprüfung in der Spritzgießmaschine. QZ 50/9:72–74

    Google Scholar 

  7. Michaeli W, Koch M, Rettemeier G, Forster J, (2004) Spritzgießsonderverfahren II. IKV-Kolloquium Aachen Germany: 1–20

    Google Scholar 

  8. Taylan A, Lilly B, Yen YC, (2001) Manufacturing of Dies and Molds. Annals of the CIRP 50/2:405–424

    Google Scholar 

  9. Moriwaki T, Shamoto E, (1999) Ultraprecision Diamond Cutting of Hardened Steel by Applying Elliptical Vibration Cutting. Annals of the CIRP 48/1:441–444

    Google Scholar 

  10. Brinksmeier E, Gläbe R, (2001) Advances in Precision Machining of Steel. Annals of the CIRP, 50/1:385–388

    Google Scholar 

  11. Brinksmeier E, Dong J, Gläbe R, (2004) Diamond Turning of Steel Molds for Optical Applications. Proceedings of the 4th International Conference of the euspen, Glasgow (UK):155–156

    Google Scholar 

  12. Gessenharter A, Autschbach L, Grimme D, Riemer O, Brinksmeier E, (2005) Ultraprecision Machining and Polishing of Structured Molds. Annals of the WGP, Production Engineering XI/1:11–14

    Google Scholar 

  13. Brinksmeier E, Riemer O, Gläbe R, Autschbach L, (2005) Micro-Structured Precision Moulds. Lamdamap 7th International Conference-Cranfield UK: 354–361

    Google Scholar 

  14. Flucke C, Gläbe R, Brinksmeier E, (2006) Diamond Micro Chiseling of Micro Structured Moulds. International euspen Conference in Baden: tbp

    Google Scholar 

  15. Brinksmeier E, Preuß W, Rickens K, Grimme D, (2005) Dynamic Behavior of ELID-processes. Proc. of euspen International Conference, Montpellier France:569–572

    Google Scholar 

  16. Weck M, Wenzel C, (2004) Adaptable 5-axes polishing machine-head. Annals of the WGP:95–98

    Google Scholar 

  17. De Chiffre L, Kunzmann H, Peggs GN, Lucca DA, (2003) Surfaces in Precision Engineering, Microengineering and Nanotechnology. Annals of the CIRP 52/2: 561–577

    Google Scholar 

  18. Evans CJ, Paul E, Dornfeld D, Lucca DA, Byrne G, Tricard M, Klocke F, Dambon O, Mullany BA, (2003) Material Removal Mechanisms in Lapping and Polishing. Annals of the CIRP 52/2:611–633

    Google Scholar 

  19. Dambon O, (2006) Das Polieren von Stahl fĂĽr den Werkzeug-und Formenbau. PhD Thesis, RWTH-Aachen, Shaker

    Google Scholar 

  20. GieĂźelbach M, Stock HR, Zoch HW, (2005) Neue Titan-Nickel-Nitrid-Schichten zur Abformung optischer Bauteile. Werkstoffe und werkstofftechnische Anwendungen: Neue Materialien und Verfahren in der Beschichtungstechnik, TU Chemnitz 22:286

    Google Scholar 

  21. Datchary W, Mehner A, Zoch HW, Lucca DA, Klopfstein MJ, Ghisleni R, Grimme D, Brinksmeier E, (2005) High Precision Diamond Machining of Hybrid Sol-Gel Coatings. Journal of Sol-Gel Science and Technology, 35:245–251

    Article  Google Scholar 

  22. Webster J, Tricar M, (2004) Innovations in Abrasive Products for Precision Grinding. Annals of the CIRP 53/2:597–601

    Google Scholar 

  23. Kordonski WI, Shorey AB, Tricard T, (2006) Magnetorheological Jet (MR Jet) Finishing Technology. Transactions of the ASME-Journal of Fluids Engineering 128:20–26

    Article  Google Scholar 

  24. Klocke F, Pongs G, (2004) Precision Glass Molding of Optical Components. Annals of the WGP:21–25

    Google Scholar 

  25. Goch G, Prekel H, Patzelt S, Faravashi M, (2005) Precise Alignment of Workpieces Using Speckle Patterns as Optical Fingerprint. Annals of the CIRP 54/1:523–526

    Article  Google Scholar 

  26. Weck M, Pfeifer T, Brecher C, Schmitt R, Dörner D, Winterschladen M, (2005) Approach to a Machine-Integrated Measurement and Simulation Tool for the Manufacturing of ultra precise Surfaces. Annals of the WGP 12/1:133–136

    Google Scholar 

  27. Prekel H, Liu H, Wang L, Goch G, (2003) Zerstörungsfreie Randzonenanalyse von Freiformflächen und strukturierten Oberflächen. in Goch G, Heeg FJ, Hirsch BE, Müller DH, Scholz-Reiter B: Technik-, Organisations-und Kompetenzgestaltung aus interdisziplinärer Sicht. Bremer Schriften zu Betriebstechnik und Arbeitswissenschaft 44:213–215.

    Google Scholar 

  28. Datchary W, Mehner A, Zoch HW, Lucca DA, Klopfstein MJ, Ghisleni R, Grimme D, Brinksmeier E, (2005) High Precision Diamond Machining of Hybrid Sol-Gel Coatings. Journal of Sol-Gel Science and Technology 35:245–251

    Article  Google Scholar 

  29. Schmitt R, Vinke J, (2005) Standortübergreifend verkettet, Produktionsprozessketten mit Workflow-Werkzeug steuern. QZ, 50/8:43–45

    Google Scholar 

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Authors and Affiliations

  1. Laboratory for Precision Machining, University of Bremen, Germany

    Ekkard Brinksmeier, Oltmann Riemer & Ralf Gläbe

Authors
  1. Ekkard Brinksmeier
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  2. Oltmann Riemer
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  3. Ralf Gläbe
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© 2007 Springer-Verlag London Limited

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Brinksmeier, E., Riemer, O., Gläbe, R. (2007). Merging Technologies for Optics. In: Towards Synthesis of Micro-/Nano-systems. Springer, London . https://doi.org/10.1007/1-84628-559-3_1

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  • DOI: https://doi.org/10.1007/1-84628-559-3_1

  • Publisher Name: Springer, London

  • Print ISBN: 978-1-84628-558-5

  • Online ISBN: 978-1-84628-559-2

  • eBook Packages: EngineeringEngineering (R0)

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