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|Title:||An investigation of the cutting strategy for the machining of polar microstructures used in ultra-precision machining optical precision measurement||Authors:||Zhao, CY
|Issue Date:||Jul-2021||Source:||Micromachines, July 2021, v. 12, no. 7, 755||Abstract:||In this paper, an investigation of cutting strategy is presented for the optimization of machining parameters in the ultra-precision machining of polar microstructures, which are used for optical precision measurement. The critical machining parameters affecting the surface generation and surface quality in the machining of polar microstructures are studied. Hence, the critical ranges of machining parameters have been determined through a series of cutting simulations, as well as cutting experiments. First of all, the influence of field of view (FOV) is investigated. After that, theoretical modeling of polar microstructures is built to generate the simulated surface topography of polar microstructures. A feature point detection algorithm is built for image processing of polar microstructures. Hence, an experimental investigation of the influence of cutting tool geometry, depth of cut, and groove spacing of polar microstructures was conducted. There are transition points from which the patterns of surface generation of polar microstructures vary with the machining parameters. The optimization of machining parameters and determination of the optimized cutting strategy are undertaken in the ultra-precision machining of polar microstructures.||Keywords:||Cutting strategy
|Publisher:||Molecular Diversity Preservation International (MDPI)||Journal:||Micromachines||ISSN:||2072-666X||EISSN:||2073-4360||DOI:||10.3390/mi12070755||Rights:||© 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
The following publication Zhao, C.-Y.; Cheung, C.-F.; Fu, W.-P. An Investigation of the Cutting Strategy for the Machining of Polar Microstructures Used in Ultra-Precision Machining Optical Precision Measurement. Micromachines 2021, 12, 755 is available at https://doi.org/10.3390/mi12070755
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