Tool path generation and optimization for freeform surface diamond turning based on an independently controlled fast tool servo

Yusuke Sato; Jiwang Yan

doi:10.1088/2631-7990/ac5f12

Diamond turning based on a fast tool servo (FTS) is widely used in freeform optics fabrication due to its high accuracy and machining efficiency. As a new trend, recently developed high-frequency and long-stroke FTS units are independently driven by a separate control system from the machine tool controller. However, the tool path generation strategy for the independently controlled FTS is far from complete. This study aims to establish methods for optimizing tool path for the independent control FTS to reduce form errors in a single step of machining. Different from the conventional integrated FTS control system, where control points are distributed in a spiral pattern, in this study, the tool path for the independent FTS controller is generated by the ring method and the mesh method, respectively. The machined surface profile is predicted by simulation and the parameters for the control point generation are optimized by minimizing the deviation between the predicted and the designed surfaces. To demonstrate the feasibility of the proposed tool path generation strategies, cutting tests of a two-dimensional sinewave and a micro-lens array were conducted and the results were compared. As a result, after tool path optimization, the peak-to-valley form error of the machined surface was reduced from 429 nm to 56 nm for the two-dimensional sinewave by using the ring method, and from 191 nm to 103 nm for the micro-lens array by using the mesh method, respectively.

Tool path generation and optimization for freeform surface diamond turning based on an independently controlled fast tool servo

Department of Mechanical Engineering, Keio University, Yokohama 223-8522, Japan

Publish Date: 2022-03-09

Key words:

Abstract:

HTML

Reference (33)

Fang F Z, Zhang X D and Hu X T 2008 Cylindrical coordinate machining of optical freeform surfaces Opt. Express 16 7323-9

Ye J F, Chen L, Li X H, Yuan Q and Gao Z S 2017 Review of optical freeform surface representation technique and its application Opt. Eng. 56 110901

Zhang Z Y, Yan J W and Kuriyagawa T 2019 Manufacturing technologies toward extreme precision Int. J. Extreme Manuf. 1 022001

Cheng D W, Wang Y T, Hua H and Talha M M 2009 Design of an optical see-through head-mounted display with a low f-number and large field of view using a freeform prism Appl. Opt. 48 2655-68

Jiang X, Scott P and Whitehouse D 2007 Freeform surface characterisation-a fresh strategy CIRP Ann. 56 553-6

De Chiffre L, Kunzmann H, Peggs G N and Lucca D A 2003 Surfaces in precision engineering, microengineering and nanotechnology CIRP Ann. 52 561-77

Mukaida M and Yan J W 2017 Ductile machining of single-crystal silicon for microlens arrays by ultraprecision diamond turning using a slow tool servo Int. J. Mach. Tools Manuf. 115 2-14

Weck M, Hennig J and Hilbing R 2001 Precision cutting processes for manufacturing of optical components Proc. SPIE 4440, Lithographic and Micromachining Techniques for Optical Component Fabrication (San Diego, CA:SPIE) pp 145-51

Zhu W H, Jun M B and Altintas Y 2001 A fast tool servo design for precision turning of shafts on conventional CNC lathes Int. J. Mach. Tools Manuf. 41 953-65

Rakuff S and Cuttino J F 2009 Design and testing of a long-range, precision fast tool servo system for diamond turning Precis. Eng. 33 18-25

Kim H S, Kim E J and Song B S 2004 Diamond turning of large off-axis aspheric mirrors using a fast tool servo with on-machine measurement J. Mater. Process. Technol. 146 349-55

Kim H S and Kim E J 2003 Feed-forward control of fast tool servo for real-time correction of spindle error in diamond turning of flat surfaces Int. J. Mach. Tools Manuf. 43 1177-83

Precitech 2021 Fast tool servo (available at:www.precitech.com/product/accessoriesoverview/fasttoolservo (accessed 18 November 2021))

To S, Kwok T C, Cheung C F and Lee W B 2005 Study of ultra-precision diamond turning of a microlens array with a fast tool servo system Proc. SPIE 6149 61490S

Yu D P, Gan S W, Wong Y S, Hong G S, Rahman M and Yao J 2012 Optimized tool path generation for fast tool servo diamond turning of micro-structured surfaces Int. J. Adv. Manuf. Technol. 63 1137-52

Zhu Z W and To S 2015 Adaptive tool servo diamond turning for enhancing machining efficiency and surface quality of freeform optics Opt. Express 23 20234-48

Dick L, Risse S and Tünnermann A 2021 Injection molded high precision freeform optics for high volume applications Adv. Opt. Technol. 1 213-4

Zhou M, Zhang H J and Chen S J 2010 Study on diamond cutting of nonrationally symmetric microstructured surfaces with fast tool servo Mater. Manuf. Process. 25 488-94

Neo D W K, Kumar A S and Rahman M 2014 A novel surface analytical model for cutting linearization error in fast tool/slow slide servo diamond turning Precis. Eng. 38 849-60

Gong H, Wang Y, Song L and Fang F Z 2015 Spiral tool path generation for diamond turning optical freeform surfaces of quasi-revolution Comput. Aided Des. 59 15-22

Scheiding S, Yi A Y, Gebhardt A, Li L, Risse S, Eberhardt R and Tünnermann A 2011 Freeform manufacturing of a microoptical lens array on a steep curved substrate by use of a voice coil fast tool servo Opt. Express 19 23938-51

Gao W, Araki T, Kiyono S, Okazaki Y and Yamanaka M 2003 Precision nano-fabrication and evaluation of a large area sinusoidal grid surface for a surface encoder Precis. Eng. 27 289-98

Kasztelanic R, Filipkowski A, Pysz D, Stepien R, Waddie A J, Taghizadeh M R and Buczynski R 2017 High resolution Shack-Hartmann sensor based on array of nanostructured GRIN lenses Opt. Express 25 1680-91

Oliveira O G, de Lima Monteiro D W and Costa R F O 2014 Optimized microlens-array geometry for Hartmann-Shack wavefront sensor Opt. Lasers Eng. 55 155-61

Press W H, Teukolsky S A, Vetterling W T and Flannery B P 1992 Numerical Recipes in C:The Art of Scientific Computing 2nd edn (Cambridge:Cambridge University Press) pp 123-4

Li D, Qiao Z, Walton K, Liu Y T, Xue J D, Wang B and Jiang X Q 2018 Theoretical and experimental investigation of surface topography generation in slow tool servo ultra-precision machining of freeform surfaces Materials 11 2566

Yu D P, Wong Y S and Hong G S 2011 Optimal selection of machining parameters for fast tool servo diamond turning Int. J. Adv. Manuf. Technol. 57 85-99

Liu X L, Zhang X D, Fang F Z, Zeng Z, Gao H M and Hu X T 2015 Influence of machining errors on form errors of microlens arrays in ultra-precision turning Int. J. Mach. Tools Manuf. 96 80-93

Nagayama K and Yan J W 2020 Measurement and compensation of tool contour error using white light interferometry for ultra-precision diamond turning of freeform surfaces Int. J. Autom. Technol. 14 654-64

Nagayama K and Yan J W 2021 Deterministic error compensation for slow tool servo-driven diamond turning of freeform surface with nanometric form accuracy J. Manuf. Process. 64 45-57

Yu D P, Hong G S and Wong Y S 2011 Integral sliding mode control for fast tool servo diamond turning of micro-structured surfaces Int. J. Autom. Technol. 5 4-10

Yu D P, Hong G S and Wong Y S 2012 Profile error compensation in fast tool servo diamond turning of micro-structured surfaces Int. J. Mach. Tools Manuf. 52 13-23

Mukaida M and Yan J W 2017 Fabrication of hexagonal microlens arrays on single-crystal silicon using the tool-servo driven segment turning method Micromachines 8 323

Tool path generation and optimization for freeform surface diamond turning based on an independently controlled fast tool servo

doi: 10.1088/2631-7990/ac5f12

Abstract

Keywords

通讯作者: 陈斌, bchen63@163.com

Article Metrics