ZHANG Zong-ke, XU Sheng-jie. Visualization of Performance Calculation Result of Air Cushion Vehicle by Secondary Development of CATIA[J]. Ship & Boat, 2019, 30(03): 104-114.
[1] YUN Liang,BLIAULT A.Theory and Design of Air Cushion Craft[M],Arnold,2000. [2] 马涛,邬成杰. 气垫船总体性能与围裙气垫系统流体动力设计[M].北京:国防工业出版社,2012. [3] LAVIS D R,FORSTELL B G. Air Cushion Vehicle (ACV) Developments In the U.S[C]// FAST 2005, Russia, 2005. [4] LAVIS D R.Fifty Years & More of Hovercraft Development[R]. SNAME and IHS Dinner Meeting. 2011.5. [5] AMYOT J R.Hovercraft Technology Economics and Applications[M].Elsevier Science Publishers B.V.,1989. [6] HUANG T T,WONG K K.Disturbance Induced by a Pressure Distribution Moving Over a Free surface[J].Journal of Ship Research, 1970(3):195-203. [7] NEWMAN J N, POOLE F A P. Forces The Wave Resistance for a Moving Pressure Distribution in a Canal[J]. Schiffstechnik, 1962(9):21-26. [8] CUMMINGS D, SHURSKY S, KERN E, et al.Mathematical Model of an Air Cushion Vehicle, AD-A015 699,1975. [9] ZILMAN G.Forces Exerted on a Hovercraft by a Moving Pressure Distribution: Robustness of Mathematical Models[J] . Journal of Ship Research, 2006(1):38-48. [10] 王绍明,姚征. 全垫升气垫船内部流场的数值模拟与改进[J] .船舶力学,2007(2):179-184.