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Fast/slow tool servo (FTS/STS) diamond turning is a very promising technique for the generation of micro-lens array (MLA). However, it is still a challenge to process MLA in large scale due to certain inherent limitations of this technique. In the present study, a novel ultra-precision diamond cutting method, as the end-fly-cutting-servo (EFCS) system, is adopted and investigated for large-scale generation of MLA. After a detailed discussion of the characteristic advantages for processing MLA, the optimal toolpath generation strategy for the EFCS is developed with consideration of the geometry and installation pose of the diamond tool. A typical aspheric MLA over a large area is experimentally fabricated, and the resulting form accuracy, surface micro-topography and machining efficiency are critically investigated. The result indicates that the MLA with homogeneous quality over the whole area is obtained. Besides, high machining efficiency, extremely small volume of control points for the toolpath, and optimal usage of system dynamics of the machine tool during the whole cutting can be simultaneously achieved.

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The packing measure of the Cartesian product of the middle third Cantor set with itself

Jia

Zhou

Zhu

et al. 2003

Journal of Mathematical Analysis and Applications

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Development of a Novel 2-D Vibration-Assisted Compliant Cutting System for Surface Texturing

Zhu

et al. 2017

IEEE/ASME Trans. Mechatron.

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Zhiwei Zhu

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The packing measure of the Cartesian product of the middle third Cantor set with itself

Development of a Novel 2-D Vibration-Assisted Compliant Cutting System for Surface Texturing

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