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Tribology Transactions Volume 43, 2000 - Issue 2
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Original Articles

Analysis of Tribological Performance of a Piston Ring Pack

Sanjay D. Gulwadi Ricardo Inc., Burr Ridge, Illinois, 60521
Pages 151-162 | Published online: 25 Mar 2008

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Anastasios Zavos & Pantelis G. Nikolakopoulos. (2022) Investigation of the top compression ring power loss and energy consumption for different engine conditions. Tribology - Materials, Surfaces & Interfaces 16:2, pages 130-142.
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Rita Ferreira, Jorge Martins, Óscar Carvalho, Luis Sobral, Sandra Carvalho & Filipe Silva. (2020) Tribological solutions for engine piston ring surfaces: an overview on the materials and manufacturing. Materials and Manufacturing Processes 35:5, pages 498-520.
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Andrzej Wolff. (2014) Simulation Based Study of the System Piston–Ring–Cylinder of a Marine Two-Stroke Engine. Tribology Transactions 57:4, pages 653-667.
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S. Arumugam & G. Sriram. (2012) Effect of Bio-Lubricant and Biodiesel-Contaminated Lubricant on Tribological Behavior of Cylinder Liner–Piston Ring Combination. Tribology Transactions 55:4, pages 438-445.
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Articles from other publishers (32)

J.C. Walker, Z. Barnes, A. Shehata, P. Jiang & T.J. Kamps. (2023) Variable pressure scuffing of a flake graphite cast iron diesel cylinder liner. Tribology International 179, pages 108155.
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Andrzej Wolff & Grzegorz Koszałka. (2022) Influence of engine load on piston ring pack operation of an automotive IC engine. Combustion Engines.
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Tongyang Li, Xuan Ma, Xiqun Lu, Chuanjuan Wang, Bowen Jiao, Hanzhang Xu & Dequan Zou. (2019) Lubrication analysis for the piston ring of a two-stroke marine diesel engine taking account of the oil supply. International Journal of Engine Research 22:3, pages 949-962.
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Brahim Menacer & Mostefa Bouchetara. (2020) Estudio numérico del efecto de perfil del primer anillo del pistón de compresión sobre el rendimiento hidrodinámico del lubricante de un motor diésel. Revista de Metalurgia 56:3, pages 177.
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Andrzej Wolff. Numerical Analysis of the System Piston-Ring-Cylinder of an Automotive IC Engine. Numerical Analysis of the System Piston-Ring-Cylinder of an Automotive IC Engine.
Chunxing Gu & Di Zhang. (2019) Modeling and prediction of the running-in behavior of the piston ring pack system based on the stochastic surface roughness. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 233:12, pages 1857-1877.
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Thomas GuQ. Jane WangShangwu XiongZhong LiuArup GangopadhyayZhiqiang Liu. (2019) Profile Design for Misaligned Journal Bearings Subjected to Transient Mixed Lubrication. Journal of Tribology 141:7.
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Chris Such & Simon Edwards. 2019. Heavy-Duty-, On- und Off-Highway-Motoren 2014. Heavy-Duty-, On- und Off-Highway-Motoren 2014 135 149 .
Anastasios Zavos & Pantelis G. Nikolakopoulos. (2018) Tribology of new thin compression ring of fired engine under controlled conditions-A combined experimental and numerical study. Tribology International 128, pages 214-230.
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A Wolff. (2018) Numerical analysis of gas flow through the labyrinth seal of piston rings of an automotive IC engine. IOP Conference Series: Materials Science and Engineering 421, pages 042082.
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Cristiana Delprete & Abbas Razavykia. (2017) Piston ring–liner lubrication and tribological performance evaluation: A review. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 232:2, pages 193-209.
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H Overgaard, P Klit & A Vølund. (2017) Investigation of different piston ring curvatures on lubricant transport along cylinder liner in large two-stroke marine diesel engines. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 232:1, pages 85-93.
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Cheng Liu, Yanjun Lu, Peng Wang, Yongfang Zhang, Yonggui Zhang & Norbert Müller. (2018) Numerical analysis of the effects of compression ring wear and cylinder liner deformation on the thermal mixed lubrication performance of ring-liner system. Mechanics & Industry 19:2, pages 203.
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Chunxing GuXianghui MengDi Zhang & Youbai Xie. (2017) Transient Analysis of the Textured Journal Bearing Operating With the Piezoviscous and Shear-Thinning Fluids. Journal of Tribology 139:5.
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Xianghui Meng, Chunxing Gu & Youbai Xie. (2016) Elasto-plastic contact of rough surfaces: a mixed-lubrication model for the textured surface analysis. Meccanica 52:7, pages 1541-1559.
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Xianghui Meng, Chunxing Gu, Youbai Xie & Wenxiang Li. (2016) A two-dimensional starved lubrication analysis method for textured surfaces. International Journal of Engine Research 17:10, pages 1062-1076.
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Chunxing Gu, Xianghui Meng, Youbai Xie & Jiazheng Fan. (2016) A thermal mixed lubrication model to study the textured ring/liner conjunction. Tribology International 101, pages 178-193.
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Jun Cheng, XiangHui Meng, YouBai Xie & XiaoLi Kong. (2016) Blow-by and tribological performance of piston ring pack during cold start and warm idle operations. Science China Technological Sciences 59:7, pages 1085-1099.
Crossref
Chunxing Gu, Xianghui Meng, Youbai Xie & Peng Li. (2015) A study on the tribological behavior of surface texturing on the nonflat piston ring under mixed lubrication. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 230:4, pages 452-471.
Crossref
N. Morris, R. Rahmani, H. Rahnejat, P. D. King & S. Howell-Smith. (2016) A Numerical Model to Study the Role of Surface Textures at Top Dead Center Reversal in the Piston Ring to Cylinder Liner Contact. Journal of Tribology 138:2.
Crossref
Chunxing Gu, Xianghui Meng, Youbai Xie & Yimin Yang. (2016) Effects of surface texturing on ring/liner friction under starved lubrication. Tribology International 94, pages 591-605.
Crossref
Oliver P. Taylor, Richard Pearson, Richard Stone, Phil Carden & Helen Ballard. Tribological Behavior of Low Viscosity Lubricants in the Piston to Bore Zone of a Modern Spark Ignition Engine. Tribological Behavior of Low Viscosity Lubricants in the Piston to Bore Zone of a Modern Spark Ignition Engine.
Christopher Baker, Ramin Rahmani, Ioannis Karagiannis, Stephanos Theodossiades, Homer Rahnejat & Alan Frendt. Effect of Compression Ring Elastodynamics Behaviour upon Blowby and Power Loss. Effect of Compression Ring Elastodynamics Behaviour upon Blowby and Power Loss.
Phil Carden, Carl Pisani, Emmanuel Lainé, Ian Field, Maryann Devine, Andreas Schoeni & Peter Beyer. (2012) Calculation of crank train friction in a heavy duty truck engine and comparison with measured data. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology 227:2, pages 168-184.
Crossref
Qianfan Xin. 2013. Diesel Engine System Design. Diesel Engine System Design 651 758 .
Sang Myung Chun. (2011) Simulation of engine life time related with abnormal oil consumption. Tribology International 44:4, pages 426-436.
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Xingsong Wang & Xiaosong Chen. (2010) Measuring radial pressure distributions of piston rings based on partial-thin-walled cylinder. Measurement 43:2, pages 197-203.
Crossref
F-M Meng, J-X Wang & K Xiao. (2009) A study of the influences of particles in the gas flow passage of a piston ring pack on the tribological performances of the piston ring. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 224:1, pages 201-215.
Crossref
Xingsong Wang, Qing Ma & Xiaosong Chen. (2007) Measurement of the Radial Pressure Distributions of Piston Rings Based on Partial-Thin-Walled Cylinder. Measurement of the Radial Pressure Distributions of Piston Rings Based on Partial-Thin-Walled Cylinder.
Y. Piao & S. D. Gulwadi. (2003) Numerical Investigation of the Effects of Axial Cylinder Bore Profiles on Piston Ring Radial Dynamics. Journal of Engineering for Gas Turbines and Power 125:4, pages 1081-1089.
Crossref
. 2003. Lubricated Wear - Science and Technology. Lubricated Wear - Science and Technology 267 292 .
Jinglei Chen & D. E. Richardson. Predicted and Measured Ring Pack Performance of a Diesel Engine. Predicted and Measured Ring Pack Performance of a Diesel Engine.

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