[1] Terry O, Hockenberry, Everard M.Williams. Dynamic Evolution of Events Accompanying the Low-Voltage Discharges Employed in EDM[J]. Industry and General Applications IEEE Transactions on (S0018-943X), 1967, 3(4): 302-309. [2] JLGuerrero-Alvarez, JEGreene, BFVon Turkovich.Study of the electro-erosion phenomenon of Fe and Zn[J]. Journal of Manufacturing Science and Engineering (S1087-1357), 1973, 95(4): 965-971. [3] Wang Bor-Jenq, Saka Nannaji, Rabinowicz Ernest.Static-gap single-spark erosion of Ag-CdO and pure metal electrodes[J]. Wear (S1068-3666), 1992, 157(1): 31-49. [4] J Marafona, AG Chousal. A finite element model of EDM based on the Joule effect[J]. International Journal of Machine Tools and Manufacture (S0890-6955), 2006, 46(6): 595-602. [5] Wuyi Ming, Guojun Zhang, He Li, et al. A hybrid process model for EDM based on finite-element method and Gaussian process regression[J]. The International Journal of Advanced Manufacturing Technology (S0268-3768), 2014, 74(6): 1197-1211. [6] Vinod Yadav, Vijay K Jain, Prakash M.Dixit. Thermal stresses due to electrical discharge machining[J]. International Journal of Machine Tools and Manufacture (S0890-6955), 2002, 42(8): 877-888. [7] Guojun Zhang, Jianwen Guo, Wuyi Ming, et al. Study of the machining process of nano-electrical discharge machining based on combined atomistic-continuum modeling method[J]. Applied Surface Science (S0169-4332), 2014, 290(11): 359-367. [8] Dmitriy SIvanov, Leonid V, Zhigilei. Combined atomistic-continuum modeling of short-pulse laser melting and disintegration of metal films [J]. Physical Review B (S1098-0121), 2003, 68(6): 064114.1-22. [9] H N G Wadley, X Zhou, RAJohnson, M Neurock. Mechanisms, models and methods of vapor deposition[J]. Progress in Materials Science (S0079-6425), 2001, 46(3): 329-377. [10] S IAnisimov, B L Kapeliovich, T L Perel’Man. Electron emission from metal surfaces exposed to ultrashort laser pulses[J]. Zh. Eksp. Teor. Fiz (S0021-3640), 1974, 66(776): 375-381. [11] K Furusawa, K Takahashi, H Kumagai, et al. Ablation characteristics of Au, Ag, and Cu metals using a femtosecond Ti: sapphire laser[J]. Applied Physics A (S1432-0630), 1999, 69(1): S359-S366. [12] Zhibin Lin, Leonid VZhigilei, Vittorio Celli.Electron-phonon coupling and electron heat capacity of metals under conditions of strong electron-phonon nonequilibrium[J]. Physical Review B (S1098-0121), 2008, 77(7): 439-446. [13] Wolfgang Wagner, Andreas Pruß.The IAPWS formulation 1995 for the thermodynamic properties of ordinary water substance for general and scientific use[J]. Journal of Physical and Chemical Reference Data (S0047-2689), 2002, 31(2): 387-535. [14] Jim Douglas.Alternating direction methods for three space variables[J]. Numerische Mathematik (S0945-3245), 1962, 4(1): 41-63. [15] Van G W F, Berendsen H J C. A leap-frog algorithm for stochastic dynamics[J]. Molecular Simulation (S0892-7022), 1988, 1(3): 173-185. [16] Rapaport D C.Multi-million particle molecular dynamics: II. Design considerations for distributed processing[J]. Computer Physics Communications (S0010-4655), 1991, 62(2): 217-228. |