[1] SCHMIDT M,MURRENHOFF H,LOHRBERG H,et al. Tightness investigation on hydraulic seat valves[C]//ASME 2008 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers,2008:1-7. [2] MARIE C,LASSEUX D. Experimental leak-rate measurement through a static metal seal[J]. Journal of Fluids Engineering,2007,129(6):799-805. [3] ARGHAVANI J,DERENNE M,MARCHAND L. Effect of surface characteristics on compressive stress and leakage rate in gasketed flanged joints[J]. The International Journal of Advanced Manufacturing Technology,2003,21(10-11):713-732. [4] NASH D H,ABID M. Surface sensitivity study of non-gasketed flange joint[J]. Proceedings of the Institution of Mechanical Engineers,Part E:Journal of Process Mechanical Engineering,2004,218(4):205-212. [5] KOBAYASHI T,KOGASAKA M,NISHIURA K,et al. The sealing behavior of large diameter flanged connections and a method to determine bolt loads to satisfy tightness criteria[C]//ASME 2011 Pressure Vessels and Piping Conference. American Society of Mechanical Engineers,2011:51-56. [6] 冯秀,顾伯勤. 金属垫片密封泄漏模型试验研究[J]. 润滑与密封,2008,33(9):48-50. FENG Xiu,GU Boqin. Experimental research on leakage model of metallic gasket seals[J]. Lubrication Engineering,2008,33(9):48-50. [7] ROBBE-VALLOIRE F,PRAT M. A model for face-turned surface microgeometry:Application to the analysis of metallic static seals[J]. Wear,2008,264(11):980-989. [8] 冯秀,顾伯勤. 金属垫片泄漏模型理论研究[J]. 润滑与密封,2006,31(8):78-80. FENG Xiu,GU Boqin. Research on leakage model of metallic gasket seal[J]. Lubrication engineering,2006,31(8):78-80. [9] 任晓,吴承伟,周平. 粗糙表面的气体密封性能研究[J]. 机械工程学报,2010,46(16):176-181 REN Xiao,WU Chengwei,ZHOU Ping. Gas sealing performance study of rough surface[J]. Journal of Mechanical Engineering,2010,46(16):176-181 [10] VALLET C,LASSEUX D,SAINSOT P,et al. Real versus synthesized fractal surfaces:Contact mechanics and transport properties[J]. Tribology International,2009,42(2):250-259. [11] PERSSON B N J. Fluid dynamics at the interface between contacting elastic solids with randomly rough surfaces[J]. Journal of Physics:Condensed Matter,2010,22(26):265004. [12] TRIPP J H,GARTE S. The gas-tightness of separable base metal electric contacts[J]. Components,Hybrids,and Manufacturing Technology,IEEE Transactions on,1981,4(1):85-92. [13] PERSSON B N J,ALBOHR O,CRETON C,et al. Contact area between a viscoelastic solid and a hard,randomly rough,substrate[J]. The Journal of Chemical Physics,2004,120(18):8779-8793. [14] PERSSON B N J,YANG C. Theory of the leak-rate of seals[J]. Journal of Physics:Condensed Matter,2008,20(31):315011. [15] BOTTIGLIONE F,CARBONE G,MANGIALARDI L,et al. Leakage mechanism in flat seals[J]. Journal of Applied Physics,2009,106(10):104902. [16] BOTTIGLIONE F,CARBONE G,MANTRIOTA G. Fluid leakage in seals:An approach based on percolation theory[J]. Tribology International,2009,42(5):731-737. [17] LEDOUX Y,LASSEUX D,FAVRELIERE H,et al. On the dependence of static flat seal efficiency to surface defects[J]. International Journal of Pressure Vessels and Piping,2011,88(11):518-529. [18] AHARONY A,STAUFFER D. Introduction to percolation theory[M]. London:Taylor & Francis Group,2003. [19] ISICHENKO M B. Percolation,statistical topography,and transport in random media[J]. Reviews of Modern Physics,1992,64(4):961. [20] JOO Y H. Finite-size scaling features of electric conductivity percolation in nanocomposites[J]. Nanoscience and Nanoengineering,2013,1(1):15-22. [21] HAN K H,LIM Z S,LEE S I. Experimental study of the conductivity exponent in a two-dimensional Swiss cheese percolating network[J]. Physical B:Condensed Matter.,1990,167(3):185-188. [22] JACKSON R L,GREEN I. On the modeling of elastic contact between rough surfaces[J]. Tribology Transactions,2011,54(2):300-314. [23] XU Y. An analysis of elastic rough contact models[D]. Auburn:Auburn University,2012. [24] LORENZ B,PERSSON B N J. Leak rate of seals:Comparison of theory with experiment[J]. Europhysics Letters,2009,86(4):44006. |