Abstract
The paper presents a novel approach for the modeling and simulation of surface generation in the potassium dihydrogen phosphate (KDP) crystal fly cutting machining process in the macro, micro, and nano scales, in order for the evaluation specifications in different spatial frequency region. The main influential factors of surface topography in different scales are discussed and modeled by different methods. The simulations take into account all the intricate aspects of the machining process affecting the surface topography and texture formation such as the straightness of the slide, the dynamic performance of the machine tool, and the cutter profile. This method can realize the machine tool performance and machining parameter optimization by the surface prediction and detection. The numerical calculation (NC) and the finite element (FE) method are used in the macro and micro scales. Molecular dynamics (MD) simulation is used in the nano scale. Furthermore, the proposed systematic modeling approach is verified by cutting trials which provide the coincident results of the simulated surface topography.
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References
Moses E (2008) Multi-megajoule NIF: ushering in a new era in high energy density science. Proc SPIE 7005:1–11
Keith Carlisle, Machine tool developments in ultra precision manufacturing, http://www.cern2012.euspen.eu/content/News-and-events/euspen-events/CERN%202012/Presentations/B1%20Keith%20Carlisle%20-%20Machine%20Tool%20Dev.pdf
Li MQ, Chen MJ, An CH, Zhou L, Cheng J, Xiao Y, Jiang W (2012) Mechanism of micro-waviness induced KH2PO4 crystal laser damage and the corresponding vibration source. Chin Phys B 21:1–9
Chen MJ, Li MQ, Cheng J, Xiao Y, Pang QL (2013) Study on the optical performance and characterization method of texture on KH2PO4 surface processed by single point diamond turning. Appl Surf Sci 279:233–244
Chen MJ, Pang QL, Wang JH, Cheng K (2008) Analysis of 3D micro topography in machined KDP crystal surfaces based on fractal and wavelet methods. Int J Mach Tools Manuf 48:905–913
Spaeth ML, Manes KR, Widmayer CC (2004) The national ignition facility wavefront requirements and optical architecture. Opt Eng 43:2854–2865
Lahaye P, Chomont C, Dumont P, Duchesne J, Chabassier G (1999) Using a design of experiment method to improve KDP crystal machining process. SPIE 3492:814–820
Liang YC, Chen WQ, Bai QS, Sun YZ, Chen GD, Zhang Q, Sun Y (2013) Design and dynamic optimization of an ultraprecision diamond fly cutting machine tool for large KDP crystal machining. Int J Adv Manuf Technol 69:237–244
Chen WQ, Liang YC, Sun YZ, Huo DH, Lu LH, Liu HT (2014) Design philosophy of an ultra-precision fly cutting machine tool for KDP crystal machining and its implementation on the structure design. Int J Adv Manuf Technol 70:429–438
Luo X, Cheng K, Ward R (2005) The effects of machining process variables and tooling characterisation on the surface generation. Int J Adv Manuf Technol 25:1089–1097
Cheung CF, Lee WB (2000) Modelling and simulation of surface topography in ultra-precision diamond turning. Proc IMechE Part B: J Eng Manuf 214:463–480
Zhou L, Cheng K (2009) Dynamic cutting process modelling and its impact on the generation of surface topography and texture in nano/micro cutting. Proc IMechE Part B: J Eng Manuf 223:247–265
Sun XZ, Cheng K (2010) Multi-scale simulation of the nano-metric cutting process. Int J Adv Manuf Technol 47:891–901
Wang HX, Zong WJ, Sun T, Liu Q (2010) Modification of three dimensional topography of the machined KDP crystal surface using wavelet analysis method. Appl Surf Sci 256:5061–5068
Lee WB, Cheung CF, To S (2007) Multi-scale modelling of surface topography in single-point diamond turning. J Achiev Mater Manuf Eng 24:260–266
Liang YC, Chen WQ, Sun YZ, Chen GD, Wang T, Sun Y (2012) Dynamic design approach of an ultra-precision machine tool used for optical parts machining. Proc IMechE Part B: J Eng Manuf 226(2012):1930–1936
Cheung CF, Lee WB (2000) A theoretical and experimental investigation of surface roughness formation in ultra-precision diamond turning. Int J Mach Tools Manuf 40(2000):979–1002
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Chen, W., Liang, Y., Luo, X. et al. Multi-scale surface simulation of the KDP crystal fly cutting machining. Int J Adv Manuf Technol 73, 289–297 (2014). https://doi.org/10.1007/s00170-014-5748-0
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DOI: https://doi.org/10.1007/s00170-014-5748-0