论文信息 - Microcomputer-controlled polishing machine for very smooth and deep aspherical surfaces.

Microcomputer-controlled polishing machine for very smooth and deep aspherical surfaces.

The authors were required to fabricate small highly curved components with unusually deep asphericity together with extremely smooth and low damaged surfaces using lithium niobate, a crystalline material with anisotropic machining properties. Diamond-turning produced an accurate profile but with unacceptable roughness. Because existing CNC machines could not polish these surfaces adequately, a new polishing machine was developed. Three axes were controlled by a microcomputer to drive a very small rotating polishing tool over the rotating aspherical surface. The tool path was controlled to remove material uniformly from the surface or make corrections to surface profile.

G. Doughty | J. Smith

[1] Generation of optical surfaces , 1967 .

[2] R. McDonough,et al. Computer assisted optical surfacing. , 1972, Applied optics.

[3] R. A. Jones,et al. Optimization of computer controlled polishing. , 1977, Applied optics.

[4] J. C. Bradley,et al. Diamond-Machined Geodesic Lenses In LiNbO3 , 1979, Other Conferences.

[5] J. Wilks,et al. Performance of diamonds as cutting tools for precision machining , 1980 .

[6] E C Malarkey,et al. Operational integrated optical R.F. spectrum analyzer. , 1980, Applied optics.

[7] D. J. Nicholas,et al. Production Of An Aspheric Surface For An F/1 Focusing Lens By A CNC Machine , 1981, Other Conferences.

[8] J. Singh,et al. Aspheric Geodesic Lenses In An Integrated Optics Spectrum Analyser , 1981, Other Conferences.

[9] G. Doughty,et al. Fabrication Techniques for Geodesic Lenses in Lithium Niobate , 1982 .

[10] J. Singh,et al. Integrated Optical Microwave Spectrum Analyser (IOSA) Using Geodesic Lenses , 1983, Other Conferences.

[11] Richard M. De La Rue,et al. An experimental study of in-plane light scattering in titanium diffused Y-cut LiNbO3optical waveguides , 1985, Journal of Lightwave Technology.

[12] Robert A. Jones. Computer Controlled Optical Surfacing With Orbital Tool Motion , 1985, Other Conferences.

[13] Simple numerical measure of the manufacturability of aspheric optical surfaces. , 1986, Applied optics.