1Urata E.. Technological aspects of the new water hydraulic.Proc. of the 6th Scandinavian Intl. Conf. on Fluid Power,Tampere, Finland, May26~28, 1999:21~34.
2Oshima S. , Ichikawa T.. Cavitation phenomenon and valve performance of oil hydraulic poppet valve. ICFP, Hangzhou, China, Sept. 10~14, 1985: 1563~ 1581.
3Oshima S. , Ichikawa T.. Cavitation phenomena and performance of oil hydraulic valve (2nd Report, Influence of the chamfer length of the seat and the flow performance).Trans. of Japan Soc. of Mech. Engrs. , Series B, 51(462), Feb. 1985:628 ~636.
4Oshima S., Timo L. , Matti L.. Experimental study on cavitation in water hydraulic poppet valve. Trans. of the Japan Fluid Power System Society, 2002, 33 (2): 29~35.
5Pountney D.C., Weston W. , Banieghbal M. R.. A numerical study of turbulent flow characteristics of servovalve orifices. Proc. Instn. Mech. Engrs. , Part A, 205,1991:139 ~ 147.
6Vaughan N. D., Johnston D. N., Edge K. A.. Numerical simulation of fluid flow in poppet valves. Proc.Instn. Mech. Engrs. , Part A, 206, 1992:119 ~127.
7Borghi M. , Cantore G. , Milani M. , Paoluzzi R.. Analysis of hydraulic components using computational fluid dynamics models. Proc. Instn. Mech. Engrs. , Part C,212, 1998: 619~629.