[1] Zhou L, Cui C, Jia Q et al. Experimental and finite element simulation of milling process for γ-TiAl intermetallics[J]. Acta Metallurgica Sinica, 53, 505-512(2017).

[2] Yang C. Application of TiAl alloys in commercial aero-engines[J]. Foundry Technology, 35, 1933-1937(2014).

[3] Liao Y J L, Gu L, Liu S Y et al. Research status of machining γ-TiAl intermetallic compounds both in China and overseas[J]. Aeronautical Manufacturing Technology, 63, 22-33(2020).

[4] Yuan Q. Study on cutting mechanism of new type of titanium aluminum alloy[D](2019).

[5] Zhang G J, Huang Y, Zou L. Research on surface integrity in precision abrasive belt grinding of TiAl based alloy[J]. Mechanical Science and Technology for Aerospace Engineering, 37, 1055-1060(2018).

[6] Beranoagirre A, Olvera D, de Lacalle L N L et al. Drilling of intermetallic alloys gamma tial[J]. AIP Conference Proceedings, 1315, 1023(2011).

[7] Gautier G, Priarone P C, Rizzuti S et al. A contribution on the modelling of wire electrical discharge machining of a γ-TiAl alloy[J]. Procedia CIRP, 31, 203-208(2015).

[8] Zhao G L, Xia H J, Zhang Y et al. Laser-induced oxidation assisted micro milling of high aspect ratio microgroove on WC-Co cemented carbide[J]. Chinese Journal of Aeronautics, 34, 465-475(2021).

[9] Xia H J, Zhao G L, Li L et al. Fabrication of high aspect ratio microgroove on Ti6Al4V by laser-induced oxidation assisted micro milling[J]. Journal of Manufacturing Processes, 45, 419-428(2019).

[10] Singh R, Melkote S N. Experimental characterization of laser-assisted mechanical micromachining (LAMM) process[C]. //Proceedings of ASME 2005 International Mechanical Engineering Congress and Exposition, November 5-11, 2005, Orlando, Florida, USA., 957-964(2008).

[11] Shelton J A, Shin Y C. Comparative evaluation of laser-assisted micro-milling for AISI 316, AISI 422, Ti-6Al-4V and Inconel 718 in a side-cutting configuration[J]. Journal of Micromechanics and Microengineering, 20, 075012(2010).

[12] Zhai Z Y, Mei X S, Wang W J et al. Research advancement on laser etching technology of silicon carbide ceramic matrix composite[J]. Chinese Journal of Lasers, 47, 0600002(2020).

[13] Sun W F, Hong R J, Tao C X et al. Pulsed-laser-modified plasmon properties of metal nanofilms[J]. Chinese Journal of Lasers, 47, 0103001(2020).

[14] Gu X Y, Zhu K X, Sui C L et al. Control of microstructure and property of pulse laser welded joint of magnesium/titanium alloy[J]. Chinese Journal of Lasers, 47, 0102005(2020).

[15] Huang K. Interacting process and microstructure machining on metal materials by nanosecond laser ablation[D](2012).

[16] Cao F G. Laser beam machining[M], 44-45(2015).

[17] Mishra S, Yadava V. Laser beam micromachining (LBMM): a review[J]. Optics and Lasers in Engineering, 73, 89-122(2015).

[18] Guan Y C, Zhou W, Li Z L et al. Boiling effect in crater development on magnesium surface induced by laser melting[J]. Surface and Coatings Technology, 252, 168-172(2014).