Affiliation:
1. Aalen University of Applied Sciences
2. Carl Zeiss AG
Abstract
ASPHERO5 is a funded German research project (project prime: Schneider
OpticalMachines) with the goal of economic fabrication of high precision aspheres. The research is
concentrated on the classical process chain consisting of grinding and polishing. The
characterization of the incoming and outgoing surface quality is one issue to characterize the
improvements. The variation of the local removal rate related to local curvature is one of the
limiting factors of the polishing process. In this paper we report on first results characterizing the
surface quality with a PSD (Power Spectral Density) algorithm and analyzing the local removal
rates for the polishing step. In our research, two types of aspheres with 30 and 60 mm diameter
were polished with a spinning tool process. The final deviation between simulation and experiment
was less than 10 percent. That’s the starting point for further investigations within the project.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,General Materials Science
Reference10 articles.
1. H. Thiess, U. Birnbaum, R. Boerret, V. Giggel and M. Haag ASPHERO5: Advances in surface analysis, OSA Annual Meeting, Rochester, (2006).
2. Taylor-Hobson precision PGI, http:/www.taylor-hobson.com;
3. Carl Zeiss UPMC 850, UPMC ultra Technische Daten und Leistungsmerkmale http:/www.zeiss.de/imt.
4. R. Boerret, J. Burger, A. Bich, C. Gall, T. Hellmuth, "Research on fabrication of aspheres at the Center of Optics Technology (University of Applied Science in Aalen), SPIE Optifab 2005, Technical Digest Vol. TD03, 30-23 (2005).
5. R. Boerret, V. Giggel, H. Wang, ASPHERO5, Rapid fabrication of precise aspheres, SPIE EOD2005 Jena, Germany 12-16 September.
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