[1] [1] AZAM F I, ABDUL RANI A M, ALTAF K, et al. An In-depth review on direct additive manufacturing of metals［J］. IOP Conference Series: Materials Science and Engineering, 2018, 328: 012005.

[2] [2] ZHANG X, LIANG E Q. Metal additive manufacturing in aircraft: Current application, opportunities and challenges［J］. IOP Conference Series: Materials Science and Engineering, 2019, 493: 012032.

[3] [3] GU D D, MEINERS W, WISSENBACH K, et al. Laser additive manufacturing of metallic components: Materials, processes and mechanisms［J］. International Materials Reviews, 2012, 57(3): 133-164.

[4] [4] YE Z P, ZHANG Z J, JIN X, et al. Study of hybrid additive manufacturing based on pulse laser wire depositing and milling［J］. The International Journal of Advanced Manufacturing Technology, 2017, 88(5): 2237-2248.

[5] [5] XIE Y P, TONG J B, FU Y Q, et al. Machining scheme of aviation bearing bracket based on additive and subtractive hybrid manufacturing［J］. Journal of Mechanical Science and Technology, 2020, 34(9): 3775-3790.

[6] [6] KOEPKE B G, STOKES R J. A study of grinding damage in magnesium oxide single crystals［J］. Journal of Materials Science, 1970, 5(3): 240-247.

[7] [7] CONWAY J C, KIRCHNER H P. Crack branching as a mechanism of crushing during grinding［J］. Journal of the American Ceramic Society, 1986, 69(8): 603-607.

[8] [8] KIRCHNER H P. Damage penetration at elongated machining grooves in hot-pressed Si3N4［J］. Journal of the American Ceramic Society, 1984, 67(2): 127-132.

[9] [9] KANNATEY-ASIBU E. Principles of laser materials processing［M］.s.n.: Principles of Laser Materials Processing, 2015: 431-484.

[11] [11] DU W, BAI Q, ZHANG B. A novel method for additive/subtractive hybrid manufacturing of metallic parts［J］. Procedia Manufacturing, 2016, 5: 1018-1030.

[12] [12] CHEN L, ZHANG P, CHEN J X, et al. Influence of processing parameters on the structure size of microchannel processed by femtosecond laser［J］. Optics & Laser Technology, 2018, 106: 47-51.

[13] [13] DOU J, CUI J L, FANG X Y, et al. Theoretical and experimental study on machining rectangular microgroove of diamond by femtosecond laser［J］. Integrated Ferroelectrics, 2020, 208(1): 104-116.

[15] [15] RETHFELD B, IVANOV D S, GARCIA M E, et al. Modelling ultrafast laser ablation［J］. Journal of Physics D: Applied Physics, 2017, 50(19): 193001.

[16] [16] POVARNITSYN M E, FOKIN V B, LEVASHOV P R. Microscopic and macroscopic modeling of femtosecond laser ablation of metals［J］. Applied Surface Science, 2015, 357: 1150-1156.

[18] [18] PEREZ D, LEWIS L J. Molecular-dynamics study of ablation of solids under femtosecond laser pulses［J］. Physical Review B, 2003, 67(18): 184102.

[19] [19] NEDIALKOV N N, IMAMOVA S E, ATANASOV P A, et al. Mechanism of ultrashort laser ablation of metals: molecular dynamics simulation［J］. Applied Surface Science, 2005, 247(1-4): 243-248.

[20] [20] GANGOPADHYAY U, DHUNGEL S K, BASU P K, et al. Comparative study of different approaches of multicrystalline silicon texturing for solar cell fabrication［J］. Solar Energy Materials and Solar Cells, 2007, 91(4): 285-289.

[21] [21] DOBRZAN′SKI L A, DRYGAA A, GOOMBEK K, et al. Laser surface treatment of multicrystalline silicon for enhancing optical properties［J］. Journal of Materials Processing Technology, 2008, 201(1-3): 291-296.

[23] [23] BUSTILLO A, UKAR E, RODRIGUEZ J J, et al. Modelling of process parameters in laser polishing of steel components using ensembles of regression trees［J］. International Journal of Computer Integrated Manufacturing, 2011, 24(8): 735-747.

[24] [24] ECKERT S, VOLLERTSEN F. Mechanisms and processing limits of surface finish using laser-thermochemical polishing［J］. CIRP Annals, 2018, 67(1): 201-204.

[25] [25] SHARMA S, MANDAL V, RAMAKRISHNA S A, et al. Numerical simulation of melt pool oscillations and protuberance in pulsed laser micro melting of SS304 for surface texturing applications［J］. Journal of Manufacturing Processes, 2019, 39: 282-294.

[26] [26] HU P X, YAO L, ZHANG M J, et al. Femtosecond laser micro-milling dental glass ceramics: An experimental analysis and COMSOL finite element simulation［J］. Ceramics International, 2020, 46(14): 22146-22153.

[27] [27] BELLI R, WENDLER M, DE LIGNY D, et al. Chairside CAD/CAM materials. Part 1: measurement of elastic constants and microstructural characterization［J］. Dental Materials, 2017, 33(1): 84-98.

[28] [28] CAO J, GHARGHOURI M A, NASH P. Finite-element analysis and experimental validation of thermal residual stress and distortion in electron beam additive manufactured Ti-6Al-4V build plates［J］. Journal of Materials Processing Technology, 2016, 237: 409-419.

[29] [29] HIRANO K, FABBRO R, MULLER M. Experimental determination of temperature threshold for melt surface deformation during laser interaction on iron at atmospheric pressure［J］. Journal of Physics D: Applied Physics, 2011, 44(43): 435402.