1Ezugwu E O, Bonney J, Yamane Y. An overview of the maehinability of aeroengine alloys, Journal of MateriaLs Processing Technology, 2003, 134(2): 233-253.
2Ezugwu E O, Wang Z M, Machado A R. The maehinability of nickel-based alloys: a review. Journal of Malerials Processing Techno, 1999, 86:1-16.
5Rashid R A R, Sun S, Palanisamy S, et al. A study on laser assisted machining of Til0V2Fe3A1 alloy with varying laser power. Journal of Advanced Manufacturing Technology, 2014, 74:219-224.
6Braham-Bouchnak T, Germain G, Morel A J, et al. The influence of laser assistance on the machinability of the titanium alloy Ti555-3. Journal of Advanced Manufacturing Technology, 2013, 68:2471-2481.
9Ek-GaUab M , Sktad M. Machining of AI/SiC particulate metal-matrix composites Part I: Tool performance. Journal of Materials Pr,essing Technology, 1998, 83(1-3): 151-158.
10Manna A, Bhattacharayya B, A study on machinability of A1/SiC-MMC. Journal of Materials Processing Technology, 2003,140(1-3): 711-716.
7Parker K.Advanced ceramics soar to new heights.Advantageous physical properties help these inorganic,nonmetallic materials expand their usage into the manufacture of critical aerospace components[J].Metal Finishing,2006,104(3):16-18.
8Tian Y,Wu B,Anderson M.Laser-assisted milling of silicon nitride ceramics and inconel 718[J].Journal of Manufacturing Science and Engineering,2008,130(3):310131-310139.
9Tian Y,Shin Y C.Laser-assisted machining of damage-free silicon nitride parts with complex geometric features via in-process control of laser power[J].Journal of the American Ceramic Society,2006,89 (11):3397-3405.
10Rebro P A,Shin Y C,Incropera F P.Design of operating conditions for crackfree laser-assisted machining of mullite[J].International Journal of Machine Tools and Manufacture,2004,44(7-8):677-694.