Development and optimization of FJP tools and their practical verification

Wilhelmus A. C. M. Messelink; Reto Waeger; Mark Meeder; Herbert Looser; Torsten Wons; Kurt C. Heiniger; Oliver W. Faehnle

doi:10.1117/12.618671

22 August 2005 Development and optimization of FJP tools and their practical verification

Wilhelmus A. C. M. Messelink, Reto Waeger, Mark Meeder, Herbert Looser, Torsten Wons, Kurt C. Heiniger, Oliver W. Faehnle

Author Affiliations +

Proceedings Volume 5869, Optical Manufacturing and Testing VI; 58690A (2005) https://doi.org/10.1117/12.618671
Event: Optics and Photonics 2005, 2005, San Diego, California, United States

Abstract

This article presents the recent achievements with Jules Verne, a sub-aperture polishing technique closely related to Fluid Jet Polishing [1]. Whereas FJP typically applies a nozzle stand-off distance of millimeters to centimeters, JV uses a stand-off distance down to 50 μm. The objective is to generate a non-directional fluid flow parallel to the surface, which is specifically suited to reduce the surface roughness [2, 3]. Different characteristic Jules Verne nozzle geometries have been designed and numerically simulated using Computational Fluid Dynamics (CFD). To verify these simulations, the flow of fluid and particles of these nozzles has been visualized in a measurement setup developed specifically for this purpose. A simplified JV nozzle geometry is positioned in a measurement setup and the gap between tool and surface has been observed by an ICCD camera. In order to be able to visualize the motion of the abrasives, the particles have been coated with fluorescence. Furthermore, these nozzles have been manufactured and tested in a practical environment using a modified polishing machine. The results of these laboratory and practical tests are presented and discussed, demonstrating that the CFD simulations are in good agreement with the experiments. It was possible to qualitatively predict the material removal on the processed glass surface, due to the implementation of appropriate erosion models [4, 5] in the CFD software.

Citation Download Citation

Wilhelmus A. C. M. Messelink, Reto Waeger, Mark Meeder, Herbert Looser, Torsten Wons, Kurt C. Heiniger, and Oliver W. Faehnle "Development and optimization of FJP tools and their practical verification", Proc. SPIE 5869, Optical Manufacturing and Testing VI, 58690A (22 August 2005); https://doi.org/10.1117/12.618671

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