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Tribology Transactions Volume 33, 1990 - Issue 3
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Original Articles

On Reciprocating Elastomeric Seals: Calculation of Film Thicknesses Using the Inverse Hydrodynamic Lubrication Theory

A. F. C. Kanters Eindhoven University of Technology, Department of Mechanical Engineering, W.Hoog 3.110, NL 5600 MB, Eindhoven
,
J. F. M. Verest Eindhoven University of Technology, Department of Mechanical Engineering, W.Hoog 3.110, NL 5600 MB, Eindhoven
&
M. Visscher Institute for Power Transmissions and Tribology, W.Hoog 3.110, NL 5600 MB, Eindhoven
Pages 301-306 | Published online: 25 Mar 2008

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Wang Wei, Xiaoping Ouyang, Hao Liu, Hanyu Gao & Chenhao Guo. (2023) Macro and Micro Characteristics of Glyd-ring Seals in a Wide Temperature Range. Tribology Transactions 66:3, pages 530-542.
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Defa Wu, Yunxiang Ma, Zhenyao Wang, Hao Min, Yipan Deng & Yinshui Liu. (2023) Numerical and Experimental Study of Reciprocating Seals in Seawater Hydraulic Variable Ballast Components for 11,000-m Operation. Tribology Transactions 66:1, pages 92-103.
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Chao Peng, Xiaoping Ouyang, Wang Wei, Katharina Schmitz & Huayong Yang. (2022) Investigation into the Reciprocating Sealing Performance Based on an Optical Test Method. Tribology Transactions 65:2, pages 210-224.
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Bo Yang & RichardF. Salant. (2008) A Numerical Model of a Reciprocating Rod Seal With a Secondary Lip. Tribology Transactions 51:2, pages 119-127.
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Articles from other publishers (33)

Chong Xiang, Fei Guo, Xiaohong Jia & Yuming Wang. (2023) Numerical simulation model of reciprocating rod seal systems with axial wear texture on rod surface. Lubrication Science.
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Wang Wei, Hao Liu, Chenhao Guo, Haoyi Jiang & Xiaoping Ouyang. (2023) Effect of vibration on reciprocating sealing performance. Tribology International 178, pages 108031.
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Martin Wittmaack, Markus André & Katharina Schmitz. (2022) Dynamic Friction Model for the Investigation of Stick‐Slip Oscillations. Chemical Engineering & Technology 46:1, pages 29-36.
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Bongjun Kim, Junho Suh, Bora Lee, Yondo Chun, Geuntae Hong, Jungjoon Park & Yonghun Yu. (2022) Numerical Analysis via Mixed Inverse Hydrodynamic Lubrication Theory of Reciprocating Rubber Seal Considering the Friction Thermal Effect. Applied Sciences 13:1, pages 153.
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Miaotian Zhang & Yu Feng. (2022) Numerical Model of Mixed Lubrication and Experimental Study of Reciprocating Seal Based on Inverse Lubrication Theory. Lubricants 10:7, pages 153.
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Oliver Feuchtmüller, Nino Dakov, Lothar Hörl & Frank Bauer. (2021) Remarks on Modeling the Oil Film Generation of Rod Seals. Lubricants 9:9, pages 95.
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M. El Gadari & M. Hajjam. (2021) The Non-Unicity of the Film Thickness in the Hydrodynamic Lubrication: Novel Approach Generating Equivalent Micro-Grooves and Roughness. International Journal of Applied Mechanics and Engineering 26:3, pages 44-61.
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Hua-Lin Yang, Xiulong Li, Weiwei Sun, Fang Deng & Jie Du. (2021) Mixed EHL numerical analysis and leakage experiment of skeleton reciprocating oil seal. Industrial Lubrication and Tribology 73:4, pages 660-665.
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Chong Xiang, Lei Tan, Fei Guo, Xing Huang & Yuming Wang. (2021) Elastohydrodynamic lubrication simulation of reciprocating rod seal with textured rod. Tribology International 158, pages 106920.
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Chong Xiang, Fei Guo, Xiang Liu, Hong Fang & Yuming Wang. (2021) Thermo-elastohydrodynamic lubrication simulation of reciprocating rod seals under transient condition. Tribology International 153, pages 106603.
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George K. Nikas. (2020) Profile Optimization of Hydraulic, Polymeric, Sliding Seals by Minimizing an Objective Function of Leakage, Friction and Abrasive Wear. Lubricants 8:4, pages 40.
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Chong Xiang, Fei Guo, Xiang Liu, Yijie Chen, Xiaohong Jia & Yuming Wang. (2020) Numerical algorithm for fluid–solid coupling in reciprocating rod seals. Tribology International 143, pages 106078.
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Chong Xiang, Fei Guo, Xiaohong Jia, Yuming Wang & Xing Huang. (2019) Thermo-elastohydrodynamic mixed-lubrication model for reciprocating rod seals. Tribology International 140, pages 105894.
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George K. Nikas. (2018) Fast performance-analysis of rectangular-rounded hydraulic reciprocating seals: Mathematical model and experimental validation at temperatures between −54 and +135 °C. Tribology International 128, pages 34-51.
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Xueli Li, Shuangfu Suo, Fei Guo, Changgui Wu & Xiaohong Jia. (2018) A study of reciprocating seals with a new mixed-lubrication model based on inverse lubrication theory. Lubrication Science 30:3, pages 126-136.
Crossref
Haiping Gao, Baoren Li, Xiaoyun Fu & Gang Yang. (2015) A Strongly Coupled Fluid Structure Interaction Solution for Transient Soft Elastohydrodynamic Lubrication Problems in Reciprocating Rod Seals Based on a Combined Moving Mesh Method. Journal of Tribology 137:4.
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Xin Li, Gaoliang Peng, Wenjian Liu & Zhe Li. (2014) Research on dynamic simulation method of leakage prediction for hydraulic system. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 229:4, pages 771-786.
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Chuanjun Liao, Weifeng Huang, Yuming Wang, Shuangfu Suo & Ying Liu. (2013) Fluid-solid interaction model for hydraulic reciprocating O-ring seals. Chinese Journal of Mechanical Engineering 26:1, pages 85-94.
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M Crudu, A Fatu, S Cananau, M Hajjam, A Pascu & C Cristescu. (2012) A numerical and experimental friction analysis of reciprocating hydraulic ‘U’ rod seals. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 226:9, pages 785-794.
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A Fatu & M Hajjam. (2011) Numerical modelling of hydraulic seals by inverse lubrication theory. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 225:12, pages 1159-1173.
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Chih-Yung Wen, An-Shik Yang, Li-Yu Tseng & Wei-Li Tsai. (2011) Flow analysis of a ribbed helix lip seal with consideration of fluid–structure interaction. Computers & Fluids 40:1, pages 324-332.
Crossref
Markus André. 2011. Recent Developments and Innovative Applications in Computational Mechanics. Recent Developments and Innovative Applications in Computational Mechanics 155 162 .
R F Salant, B Yang & A Thatte. (2010) Simulation of hydraulic seals. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 224:9, pages 865-876.
Crossref
G K Nikas. (2016) Eighty years of research on hydraulic reciprocating seals: Review of tribological studies and related topics since the 1930s. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 224:1, pages 1-23.
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Azam Thatte & Richard F. Salant. (2009) Transient EHL analysis of an elastomeric hydraulic seal. Tribology International 42:10, pages 1424-1432.
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Azam Thatte & Richard F. Salant. (2009) Elastohydrodynamic Analysis of an Elastomeric Hydraulic Rod Seal During Fully Transient Operation. Journal of Tribology 131:3.
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Bo Yang & Richard F. Salant. (2009) Soft EHL Simulations of U-Cup and Step Hydraulic Rod Seals. Journal of Tribology 131:2.
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Bo Yang & Richard F. Salant. (2008) Numerical Model of a Tandem Reciprocating Hydraulic Rod Seal. Journal of Tribology 130:3.
Crossref
Y Öngün, M André, D Bartel & L Deters. (2008) An axisymmetric hydrodynamic interface element for finite-element computations of mixed lubrication in rubber seals. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 222:3, pages 471-481.
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Richard F. Salant, Nicholas Maser & Bo Yang. (2007) Numerical Model of a Reciprocating Hydraulic Rod Seal. Journal of Tribology 129:1, pages 91-97.
Crossref
Richard F. Salant. (2007) Progress towards a realistic numerical model for elastomer reciprocating seals. Sealing Technology 2007:1, pages 7-11.
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C. P. Hendriks & M. Visscher. (1995) Accurate Real Area of Contact Measurements on Polyurethane. Journal of Tribology 117:4, pages 607-611.
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A.F.C. Kanters. 1991. Vehicle Tribology. Vehicle Tribology 357 364 .

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