Current and Future Trends in Tribological Research

The paper provides a commentary on the theme of “Current and Future Trends in Tribological Research: Fundamentals and Applications”, which is a special feature issue commemorating the 10th anniversary of the journal, Lubricants. A historical discourse is provided regarding various aspects of tribology as a multi-disciplinary subject that interacts in an inter-disciplinary manner with many other subjects: multi-body dynamics, thermofluids and heat transfer, contact mechanics, surface science, chemistry, rheology, data science, and biology, to name but a few. Such interactions lead to many important topics including propulsion with different sources of energy, mitigating emissions, palliation of friction, enhancing durability and sustainability, optimization through detailed analysis, and the use of artificial intelligence. Additionally, issues concerning kinetics at various physical scales (from macroscale to microscale onto mesoscale and nanoscale) affecting the kinematics of contacts are discussed. The broad range of considered applications includes vehicular powertrains, rotor bearings, electrical machines, mammalian endo-articular joints, nanobiological attachment/detachment, and locomotion. Current state-of-the-art tribological research is highlighted within a multi-physics, multi-scale framework, an approach not hitherto reported in the open literature.

[1]  R. Rahmani,et al.  Effect of surface texture positioning in grease lubricated contacts , 2023, Tribology International.

[2]  H. Rahnejat,et al.  Electrotribodynamics of ball bearings in electrical machines , 2023, Tribology International.

[3]  H. Rahnejat,et al.  Multiphysics performance assessment of hydrogen fuelled engines , 2023, International Journal of Engine Research.

[4]  S. J. Mousavirad,et al.  A transfer learning based artificial neural network in geometrical design of textured surfaces for tribological applications , 2023, Surface Topography: Metrology and Properties.

[5]  H. Rahnejat,et al.  Nonlinear tribodynamics of an elastic shaft with a flexible bearing outer race , 2023, Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics.

[6]  Jing Wang,et al.  Point Contact Thermal Mixed-EHL under Short Period Intermittent Motion , 2023, Journal of tribology.

[7]  Sanket A. Deshmukh,et al.  A review of recent advances and applications of machine learning in tribology. , 2023, Physical chemistry chemical physics : PCCP.

[8]  Yang Yang,et al.  A Review of Research on Wind Turbine Bearings’ Failure Analysis and Fault Diagnosis , 2022, Lubricants.

[9]  A. Singh,et al.  Machine learning based surrogate modelling for the prediction of maximum contact temperature in EHL line contacts , 2022, Tribology International.

[10]  Wan‐Yu Wu,et al.  Effect of substrate temperature on properties of AlN buffer layer grown by remote plasma ALD , 2022, Surfaces and Interfaces.

[11]  U. Paturi,et al.  The Role of Machine Learning in Tribology: A Systematic Review , 2022, Archives of Computational Methods in Engineering.

[12]  N. Dolatabadi,et al.  Analysis of a cross groove constant velocity joint mechanism designed for high performance racing conditions , 2022, Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics.

[13]  Lining Gao,et al.  A fully coupled tribo-dynamic model for piston-ring-liner system , 2022, Tribology International.

[14]  Mohammad Arif Sobhan Bhuiyan,et al.  Getting more from the wind: Recent advancements and challenges in generators development for wind turbines , 2022, Sustainable Energy Technologies and Assessments.

[15]  R. Sehgal,et al.  Nano-Mechanical and Nano-Tribological Characterization of Self-Lubricating MoS2 Nano-Structured Coating for Space Applications , 2022, Tribology International.

[16]  N. Dolatabadi,et al.  An efficient analytical approach to assess root cause of nonlinear electric vehicle gear whine , 2022, Nonlinear Dynamics.

[17]  Yihuai Hu,et al.  Numerical study of piston group and crosshead guide system dynamics for a two‐stroke marine engine , 2022, Engineering Reports.

[18]  G. Jacobs,et al.  Electrical Bearing Damage, A Problem in the Nano- and Macro-Range , 2022, Lubricants.

[19]  Shuangjian Li,et al.  Self-lubricating coating design strategy for titanium alloy by additive manufacturing , 2022, Applied Surface Science.

[20]  A. Rosenkranz,et al.  Predicting EHL film thickness parameters by machine learning approaches , 2022, Friction.

[21]  N. Morris,et al.  Electrical Field Strength in Rough Infinite Line Contact Elastohydrodynamic Conjunctions , 2022, Lubricants.

[22]  Zeyu Ma,et al.  Tribological properties of flexible composite surfaces through direct ink writing for durable wearing devices , 2022, Surface and Coatings Technology.

[23]  C. García,et al.  Study of the Cylinder Deactivation on Tribological Parameters and Emissions in an Internal Combustion Engine , 2022, Lubricants.

[24]  M. Gehringer,et al.  Multi Body Dynamics Modeling of Launch Shudder in Electric Vehicles , 2022, SAE Technical Paper Series.

[25]  X. Weng,et al.  Recent Developments and Current Applications of Hydrogels in Osteoarthritis , 2022, Bioengineering.

[26]  M. Dugger,et al.  Role of Environment on the Shear-Induced Structural Evolution of MoS2 and Impact on Oxidation and Tribological Properties for Space Applications , 2022, ACS applied materials & interfaces.

[27]  P. Sperka,et al.  Film Thickness in Elastohydrodynamically Lubricated Slender Elliptic Contacts: Part II – Experimental Validation and Minimum Film Thickness , 2022, Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology.

[28]  R. Jackson,et al.  Modelling of Lubricated Electrical Contacts , 2022, Lubricants.

[29]  Zhongxiao Peng,et al.  Review of ultrasonic-based technology for oil film thickness measurement in lubrication , 2022, Tribology International.

[30]  A. Kahraman,et al.  Characterization of Nonlinear Rattling Behavior of a Gear Pair Through a Validated Torsional Model , 2021, Journal of Computational and Nonlinear Dynamics.

[31]  A. Zavos Effect of Coating and Low Viscosity Oils on Piston Ring Friction under Mixed Regime of Lubrication through Analytical Modelling , 2021, Lubricants.

[32]  H. Rahnejat,et al.  Fundamentals and Advances in Elastohydrodynamics: The Role of Ramsey Gohar , 2021, Lubricants.

[33]  Xianghui Meng,et al.  Rough surface damping contact model and its space mechanism application , 2021, International Journal of Mechanical Sciences.

[34]  A. Polycarpou,et al.  Review of dental tribology: Current status and challenges , 2021, Tribology International.

[35]  Z. Stępień A Comprehensive Overview of Hydrogen-Fueled Internal Combustion Engines: Achievements and Future Challenges , 2021, Energies.

[36]  A. Rosenkranz,et al.  Enhancing mechanical and biomedical properties of protheses - Surface and material design , 2021, Surfaces and Interfaces.

[37]  G. Najafi,et al.  A Review of Hydrogen as a Fuel in Internal Combustion Engines , 2021, Energies.

[38]  S. Tremmel,et al.  Current Trends and Applications of Machine Learning in Tribology—A Review , 2021, Lubricants.

[39]  Nagaraj V. Dharwadkar,et al.  Fault size diagnosis of rolling element bearing using artificial neural network and dimension theory , 2021, Neural Computing and Applications.

[40]  Xiaogang Zhang,et al.  A review of the bio-tribology of medical devices , 2021, Friction.

[41]  Anurag Choudhary,et al.  Convolutional neural network based bearing fault diagnosis of rotating machine using thermal images , 2021 .

[42]  Seok-won Kang,et al.  Optimization of Tribological Characteristics of a Combined Pattern Textured Surface Using Taguchi Design , 2021, Journal of Materials Engineering and Performance.

[43]  D. Burris,et al.  Articular Cartilage Friction, Strain, and Viability Under Physiological to Pathological Benchtop Sliding Conditions , 2021, Cellular and Molecular Bioengineering.

[44]  C. Yuan,et al.  Tribological behavior of co-textured cylinder liner-piston ring during running-in , 2021, Friction.

[45]  L. Hsiao,et al.  Bending of Soft Micropatterns in Elastohydrodynamic Lubrication Tribology , 2021, Experimental Mechanics.

[46]  V. Macián,et al.  Development of a floating liner test rig and lubrication model for the study of the piston compression ring friction force under fully flooded and starved lubrication , 2021 .

[47]  B. Gould,et al.  The effect of electrical current on premature failures and microstructural degradation in bearing steel , 2021 .

[48]  J. Loos,et al.  Influence of High Electrical Currents on WEC Formation in Rolling Bearings , 2021 .

[49]  Robert J.K. Wood,et al.  Early wear detection and its significance for condition monitoring , 2021, Tribology International.

[50]  N. Dörr,et al.  Ionic Liquids as Performance Ingredients in Space Lubricants , 2021, Molecules.

[51]  G. Poll,et al.  Empirical formulae for the influence of real film thickness distribution on the capacitance of an EHL point contact and application to rolling bearings , 2021 .

[52]  B. B. Pradhan,et al.  Laser Surface Texturing for Biomedical Applications: A Review , 2021 .

[53]  Homer Rahnejat,et al.  A Critical Review of Approaches to the Design of Floating-Liner Apparatus for Instantaneous Piston Assembly Friction Measurement , 2021 .

[54]  H. Rahnejat,et al.  Energy loss and emissions of engine compression rings with cylinder deactivation , 2021 .

[55]  A. Rosenkranz,et al.  The Use of Artificial Intelligence in Tribology—A Perspective , 2020, Lubricants.

[56]  Z. Yin,et al.  Tribological and mechanical behaviors of engine bearing with CuSn10 layer and h-BN/ graphite coating prepared by spraying under different temperatures , 2020 .

[57]  J. D. Forero,et al.  Study of the Piston Secondary Movement on the Tribological Performance of a Single Cylinder Low-Displacement Diesel Engine , 2020, Lubricants.

[58]  Vijay Kumar,et al.  Recent progresses and applications in laser-based surface texturing systems , 2020 .

[59]  D. Nélias,et al.  Three-dimensional rolling/sliding contact on a viscoelastic layered half-space , 2020 .

[60]  Robert J.K. Wood,et al.  Tribological performance of surface texturing in mechanical applications—a review , 2020, Surface Topography: Metrology and Properties.

[61]  Jiju V. Elias,et al.  Tool texturing for micro-turning applications – an approach using mechanical micro indentation , 2020 .

[62]  A. Boretti Hydrogen internal combustion engines to 2030 , 2020 .

[63]  P. M. Johns-Rahnejat,et al.  Analytical Elastostatic Contact Mechanics of Highly-Loaded Contacts of Varying Conformity , 2020, Lubricants.

[64]  H. Rahnejat,et al.  Multiscale boundary frictional performance of diamond like carbon coatings , 2020, Tribology International.

[65]  Rui-xiong Li,et al.  Tribo-dynamic analysis and motion control of a rotating manipulator based on the load and temperature dependent friction model , 2020 .

[66]  Jing Xu,et al.  Engineering Materials at the Nanoscale for Triboelectric Nanogenerators , 2020 .

[67]  H. Rahnejat,et al.  Transient Analysis of Isothermal Elastohydrodynamic Point Contacts under Complex Kinematics of Combined Rolling, Spinning and Normal Approach , 2020, Lubricants.

[68]  S. Kaiser,et al.  High-resolution LIF-Imaging of the oil film thickness in the piston-ring / cylinder-liner contact in an optical tribometer , 2020 .

[69]  Yancheng You,et al.  Current technologies and challenges of applying fuel cell hybrid propulsion systems in unmanned aerial vehicles , 2020 .

[70]  P. M. Johns-Rahnejat,et al.  Tribology and Dowson , 2020, Lubricants.

[71]  M. Usman,et al.  SI Engine Fueled with Gasoline, CNG and CNG-HHO Blend: Comparative Evaluation of Performance, Emission and Lubrication Oil Deterioration , 2020 .

[72]  Christian Daniel,et al.  Numerical Analysis Based on a Multi-Body Simulation for a Plunging Type Constant Velocity Joint , 2020, Applied Sciences.

[73]  M. Woydt,et al.  Test Modes for Establishing the Tribological Profile under Slip-Rolling , 2020, Lubricants.

[74]  V. Krasnyy,et al.  Improving the Wear Resistance of Bushings through Polymer Coatings , 2020 .

[75]  Huaiju Liu,et al.  Effects of lubrication on gear performance: A review , 2020 .

[76]  H. Rahnejat,et al.  Performance of Poly Alpha Olefin Nanolubricant , 2020, Lubricants.

[77]  H. Rahnejat,et al.  An assessment of gas power leakage and frictional losses from the top compression ring of internal combustion engines , 2020 .

[78]  H. Rahnejat,et al.  Influence of advanced cylinder coatings on vehicular fuel economy and emissions in piston compression ring conjunction , 2020, Applied Energy.

[79]  S. E. Hosseini,et al.  An overview of development and challenges in hydrogen powered vehicles , 2020 .

[80]  F. Grün,et al.  Friction and Wear Performance of Various Polymer Coatings for Journal Bearings under Stop Start Sliding , 2019 .

[81]  S. Datta,et al.  Artificial intelligence based design of multiple friction modifiers dispersed castor oil and evaluating its tribological properties , 2019, Tribology International.

[82]  Per Michael Johansen,et al.  Adaptive ultrasound reflectometry for lubrication film thickness measurements , 2019, Measurement Science and Technology.

[83]  Congju Li,et al.  Woven Wearable Electronic Textiles as Self‐Powered Intelligent Tribo‐Sensors for Activity Monitoring , 2019, Global challenges.

[84]  N. Spencer,et al.  Structuring Hydrogel Surfaces for Tribology , 2019, Advanced Materials Interfaces.

[85]  H. Rahnejat,et al.  Integrated Thermal and Dynamic Analysis of Dry Automotive Clutch Linings , 2019, Applied Sciences.

[86]  C. Reyes-Aldasoro,et al.  Effect of Viscosity and Speed on Oil Cavitation Development in a Single Piston-Ring Lubricant Assembly , 2019, Lubricants.

[87]  Jarosław Sęp,et al.  Experimental investigation into surface texture effect on journal bearings performance , 2019, Tribology International.

[88]  R. Dharmasena,et al.  Towards optimized triboelectric nanogenerators , 2019, Nano Energy.

[89]  Alessandro Ruggiero,et al.  Tribology and Dentistry: A Commentary , 2019, Lubricants.

[90]  Jianbin Luo,et al.  Molecular behaviors in thin film lubrication—Part two: Direct observation of the molecular orientation near the solid surface , 2019, Friction.

[91]  N. Dörr,et al.  Five-Stage Selection Procedure of Ionic Liquids for Lubrication of Steel–Steel Contacts in Space Mechanisms , 2019, Tribology Letters.

[92]  Josef Schlattmann,et al.  Lubrication Analyses of Cam and Flat-Faced Follower , 2019, Lubricants.

[93]  A. Ito,et al.  A Study on the Feature of Several Types of Floating Liner Devices for Piston Friction Measurement , 2019, SAE technical paper series.

[94]  Enrico Ciulli,et al.  Film Thickness and Shape Evaluation in a Cam-Follower Line Contact with Digital Image Processing , 2019, Lubricants.

[95]  H. Rahnejat,et al.  Nano and microscale contact characteristics of tribofilms derived from fully formulated engine oil , 2019, Tribology International.

[96]  C. Putignano,et al.  The Contact Mechanics of Coated Elastic Solids: Effect of Coating Thickness and Stiffness , 2019, Tribology Letters.

[97]  Kristen E Watts,et al.  Optical Spectroscopy of Surfaces, Interfaces, and Thin Films: A Status Report. , 2019, Analytical chemistry.

[98]  H. Rahnejat,et al.  Thermal conductivity and molecular heat transport of nanofluids , 2019, RSC advances.

[99]  P. Dellis Laser-induced fluorescence measurements in a single-ring test rig: Evidence of cavitation and the effect of different operating conditions and lubricants in cavitation patterns and initiation , 2019, International Journal of Engine Research.

[100]  Zhong Lin Wang,et al.  The Current Development and Future Outlook of Triboelectric Nanogenerators: A Survey of Literature , 2019, Advanced Materials Technologies.

[101]  Martin Priest,et al.  The influence of lubricant degradation on measured piston ring film thickness in a fired gasoline reciprocating engine , 2019, Tribology International.

[102]  M. B. Hayat,et al.  Solar energy—A look into power generation, challenges, and a solar‐powered future , 2018, International Journal of Energy Research.

[103]  Homer Rahnejat,et al.  Combined Analytical and Experimental Evaluation of Frictional Performance of Lubricated Untextured and Partially Textured Sliders , 2018, Lubricants.

[104]  K. Friedrich,et al.  Polymer composites for tribological applications , 2018, Advanced Industrial and Engineering Polymer Research.

[105]  Tingzhen Ming,et al.  Solar power technology for electricity generation: A critical review , 2018, Energy Science & Engineering.

[106]  Michele Ciavarella,et al.  Modeling and simulation in tribology across scales: An overview , 2018, Tribology International.

[107]  C. Delprete,et al.  Piston dynamics, lubrication and tribological performance evaluation: A review , 2018, International Journal of Engine Research.

[108]  Homer Rahnejat,et al.  Combined experimental and multiphase computational fluid dynamics analysis of surface textured journal bearings in mixed regime of lubrication , 2018 .

[109]  Zhong Lin Wang,et al.  Screen-Printed Washable Electronic Textiles as Self-Powered Touch/Gesture Tribo-Sensors for Intelligent Human-Machine Interaction. , 2018, ACS nano.

[110]  Karsten Stahl,et al.  TEHL Simulation on the Influence of Lubricants on the Frictional Losses of DLC Coated Gears , 2018 .

[111]  B. Bhushan Springer Handbook of Nanotechnology , 2017 .

[112]  Tor Arne Johansen,et al.  Toward Safer, Smarter, and Greener Ships: Using Hybrid Marine Power Plants , 2017, IEEE Electrification Magazine.

[113]  H. Rahnejat,et al.  Thermohydrodynamics of lubricant flow with carbon nanoparticles in tribological contacts , 2017 .

[114]  H Rahnejat,et al.  Combined lubricant–surface system perspective: Multi-scale numerical–experimental investigation , 2017 .

[115]  Gundolf Haase,et al.  Multi-body engine simulation including elastohydrodynamic lubrication for non-conformal conjunctions , 2017 .

[116]  Homer Rahnejat,et al.  On the Transient Three-Dimensional Tribodynamics of Internal Combustion Engine Top Compression Ring , 2017 .

[117]  Stephanos Theodossiades,et al.  Gear transmission rattle: Assessment of meshing forces under hydrodynamic lubrication , 2017, Applied Acoustics.

[118]  Riaz A. Mufti,et al.  Technique developed to study camshaft and tappet wear on real production engine , 2017 .

[119]  N. Dörr,et al.  Lubricant-surface interactions of polymer-coated engine journal bearings , 2017 .

[120]  Enrique Chacón Tanarro,et al.  Optimising the design of textured surfaces for reducing lubricated friction coefficient , 2017 .

[121]  Homer Rahnejat,et al.  The effect of cylinder liner operating temperature on frictional loss and engine emissions in piston ring conjunction , 2017 .

[122]  Lawrence J Bonassar,et al.  Binding and lubrication of biomimetic boundary lubricants on articular cartilage , 2017, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[123]  Norbert Lorenz,et al.  Thermal analysis of hydrodynamic lubricated journal bearings in internal combustion engines , 2017 .

[124]  Zhongmin Jin,et al.  Tribology of medical devices , 2016 .

[125]  Andreas Almqvist,et al.  Component test for simulation of piston ring – Cylinder liner friction at realistic speeds , 2016 .

[126]  Andreas Almqvist,et al.  Fully coupled EHL model for simulation of finite length line cam-roller follower contacts , 2016 .

[127]  Mark Ferguson,et al.  Electric buses: A review of alternative powertrains , 2016 .

[128]  H. Rahnejat,et al.  Assessment of friction from compression ring conjunction of a high-performance internal combustion engine: A combined numerical and experimental study , 2016 .

[129]  Abdul Wasy Zia,et al.  Tribological performance of few layer graphene on textured M2 steel surfaces , 2016 .

[130]  Tonghai Wu,et al.  Synthesized multi-station tribo-test system for bio-tribological evaluation in vitro , 2016 .

[131]  Lars Bobach,et al.  Transient thermal elastohydrodynamic simulation of a DLC coated helical gear pair considering limiting shear stress behavior of the lubricant , 2016 .

[132]  Jibran R. Khan,et al.  Solar power technologies for sustainable electricity generation – A review , 2016 .

[133]  Braham Prakash,et al.  Tribological performance of tin-based overlay plated engine bearing materials , 2015 .

[134]  R. Loisel,et al.  Economic evaluation of hybrid off-shore wind power and hydrogen storage system , 2015 .

[135]  Guang Zhu,et al.  Triboelectric nanogenerators as a new energy technology: From fundamentals, devices, to applications , 2015 .

[136]  Karsten Stahl,et al.  Friction reduction of highly-loaded rolling-sliding contacts by surface modifications under elasto-hydrodynamic lubrication , 2015 .

[137]  Bernd Bertsche,et al.  Experimental study on transmission rattle noise behaviour with particular regard to lubricating oil , 2015 .

[138]  H. Rahnejat,et al.  Combined numerical and experimental investigation of the micro-hydrodynamics of chevron-based textured patterns influencing conjunctional friction of sliding contacts , 2015 .

[139]  I. Hutchings,et al.  Some innovative surface texturing techniques for tribological purposes , 2015 .

[140]  M. Jech,et al.  Piston ring wear and cylinder liner tribofilm in tribotests with lubricants artificially altered with ethanol combustion products , 2015 .

[141]  Homer Rahnejat,et al.  Big End Bearing Losses with Thermal Cavitation Flow Under Cylinder Deactivation , 2015, Tribology Letters.

[142]  J. Schallenberg-Rodríguez,et al.  Evaluation of on-shore wind techno-economical potential in regions and islands , 2014 .

[143]  Feng Ji,et al.  Improving the Localization of Surface Texture by Electrochemical Machining with Auxiliary Anode , 2014 .

[144]  Homer Rahnejat,et al.  Reducing in-cylinder parasitic losses through surface modification and coating , 2014 .

[145]  Homer Rahnejat,et al.  Effect of cylinder deactivation on the tribo-dynamics and acoustic emission of overlay big end bearings , 2014 .

[146]  H. Rahnejat,et al.  In-cycle and life-time friction transience in piston ring–liner conjunction under mixed regime of lubrication , 2014 .

[147]  Homer Rahnejat,et al.  Direct measurement of piston friction of internal-combustion engines using the floating-liner principle , 2014 .

[148]  Sylvester Abanteriba,et al.  Electric discharge damage in aircraft propulsion bearings , 2014 .

[149]  Yu. P. Zaspa Competition of modes and self-modulation instability in dynamics of coherent friction: A review , 2013 .

[150]  Homer Rahnejat,et al.  Thermo-Mixed Hydrodynamics of Piston Compression Ring Conjunction , 2013, Tribology Letters.

[151]  B. Bhushan Introduction to Tribology: Bhushan/Introduction , 2013 .

[152]  Homer Rahnejat,et al.  Assessment of Friction for Cam-Roller Follower Valve Train System Subjected to Mixed Non-Newtonian Regime of Lubrication , 2012 .

[153]  Homer Rahnejat,et al.  Transient mixed thermo-elastohydrodynamic lubrication in multi-speed transmissions , 2012 .

[154]  Jie Guo,et al.  Investigation of dynamic characteristics of a valve train system , 2011 .

[155]  S. Wen,et al.  Principles of Tribology: Wen/Principles of Tribology , 2011 .

[156]  Matheus dos Santos Ferreira,et al.  New Polymeric Coated Engine Bearings for Marginal Lubrication Conditions , 2011 .

[157]  Patrick Maspeyrot,et al.  Effect of textured area on the performances of a hydrodynamic journal bearing , 2011 .

[158]  J. Booker,et al.  Conformal elastohydrodynamic lubrication analysis for engine bearing design: A brief review , 2010 .

[159]  Iraj Mirzaee,et al.  An analytical approach for analysis and optimisation of slider bearings with infinite width parallel textures , 2010 .

[160]  Bharat Bhushan,et al.  A Review of Ionic Liquids for Green Molecular Lubrication in Nanotechnology , 2010 .

[161]  H Rahnejat,et al.  An investigation of manual transmission drive rattle , 2010 .

[162]  Homer Rahnejat,et al.  Elasto-multi-body dynamics of internal combustion engines with tribological conjunctions , 2010 .

[163]  J. Flusser,et al.  Moments and Moment Invariants in Pattern Recognition , 2009 .

[164]  P. M. Johns-Rahnejat,et al.  A review of some tribo-dynamics phenomena from micro- to nano-scale conjunctions , 2009 .

[165]  Riccardo Russo,et al.  Experimental investigations about the influence of oil lubricant between teeth on the gear rattle phenomenon , 2009 .

[166]  H. P. Evans,et al.  Thermal point contact EHL analysis of rolling/sliding contacts with experimental comparison showing anomalous film shapes , 2009 .

[167]  D. Dowson A tribological day , 2009 .

[168]  Homer Rahnejat,et al.  Impact dynamics of rough and surface protected MEMS gears , 2009 .

[169]  H Rahnejat,et al.  Non-linear vibro-impact phenomenon belying transmission idle rattle , 2008 .

[170]  J-P Mariot,et al.  Secondary Torque in Automotive Drive Shaft Ball Joints: Influence of Geometry and Friction , 2008 .

[171]  Alberto Rota,et al.  AFM investigation of tribological properties of nano-patterned silicon surface , 2008 .

[172]  D. Jeulin,et al.  Parametric Optimization of Periodic Textured Surfaces for Friction Reduction in Combustion Engines , 2008 .

[173]  Bharat Bhushan,et al.  Multiscale friction mechanisms and hierarchical surfaces in nano- and bio-tribology , 2007 .

[174]  Homer Rahnejat,et al.  Mathematical modelling of layered contact mechanics of cam-tappet conjunction , 2007 .

[175]  K. Johnson,et al.  Contact mechanics of layered elastic materials: experiment and theory , 2007 .

[176]  Homer Rahnejat,et al.  Multi-physics analysis of valve train systems: From system level to microscale interactions , 2007 .

[177]  Homer Rahnejat,et al.  Gear teeth impacts in hydrodynamic conjunctions promoting idle gear rattle , 2007 .

[178]  Brian Stone,et al.  The effect of piston friction on engine block dynamics , 2007 .

[179]  M. Teodorescu,et al.  Dry and wet nano-scale impact dynamics of rough surfaces with or without a self-assembled monolayer , 2007 .

[180]  C. C. Chan,et al.  The State of the Art of Electric, Hybrid, and Fuel Cell Vehicles , 2007, Proceedings of the IEEE.

[181]  Homer Rahnejat,et al.  The Measurement of Liner - Piston Skirt Oil Film Thickness by an Ultrasonic Means , 2006 .

[182]  Riccardo Russo,et al.  A gear rattle model accounting for oil squeeze between the meshing gear teeth , 2005 .

[183]  I. Etsion,et al.  Improving Tribological Performance of Piston Rings by Partial Surface Texturing , 2005 .

[184]  Ysbrand H. Wijnant,et al.  Validation of EHL Contact Predictions under Time Varying Load , 2005 .

[185]  Homer Rahnejat,et al.  Isothermal transient analysis of piston skirt-to-cylinder wall contacts under combined axial, lateral and tilting motion , 2005 .

[186]  Homer Rahnejat,et al.  Elastodynamic transient analysis of a four-cylinder valvetrain system with camshaft flexibility , 2005 .

[187]  Huajian Gao,et al.  Effects of contact shape on the scaling of biological attachments , 2005, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Sciences.

[188]  Bharat Bhushan,et al.  Scale dependence of micro/nano-friction and adhesion of MEMS/NEMS materials, coatings and lubricants , 2004 .

[189]  Simon C. Tung,et al.  Automotive tribology overview of current advances and challenges for the future , 2004 .

[190]  Şahin Yildirim,et al.  Analysis of pressure variations on journal bearing system using artificial neural network , 2004 .

[191]  S. Gorb,et al.  From micro to nano contacts in biological attachment devices , 2003, Proceedings of the National Academy of Sciences of the United States of America.

[192]  Simon C. Tung,et al.  Tribological characteristics and surface interaction between piston ring coatings and a blend of energy-conserving oils and ethanol fuels , 2003 .

[193]  H. Rahnejat,et al.  Aligned and misaligned contacts of rollers to races in elastohydrodynamic finite line conjunctions , 2002 .

[194]  Homer Rahnejat,et al.  Transient elastohydrodynamic lubrication of finite line conjunction of cam to follower concentrated contact , 2002 .

[195]  B. Bhushan,et al.  Contact mechanics of multilayered rough surfaces , 2002 .

[196]  Homer Rahnejat,et al.  Physics of lubricated impact of a sphere on a plate in a narrow continuum to gaps of molecular dimensions , 2002 .

[197]  R. Full,et al.  Evidence for van der Waals adhesion in gecko setae , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[198]  Homer Rahnejat,et al.  Ultra-thin lubricating films under transient conditions , 2001 .

[199]  D Dowson,et al.  New joints for the Millennium: Wear control in total replacement hip joints , 2001, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[200]  M. Takiguchi,et al.  Oil Film Thickness Measurement and Analysis of a Three Ring Pack in an Operating Diesel Engine , 2000 .

[201]  R. Full,et al.  Adhesive force of a single gecko foot-hair , 2000, Nature.

[202]  P. S. Mukherjee,et al.  Assessment of useful life of lubricants using artificial neural network , 2000 .

[203]  Homer Rahnejat,et al.  Valve-train dynamics: A simplified tribo-elasto-multi-body analysis , 2000 .

[204]  Lakmal Seneviratne,et al.  Dynamic simulation of a single-cylinder diesel engine including dynamometer modelling and friction , 1999 .

[205]  H. Spikes,et al.  Simple equation for elastohydrodynamic film thickness under acceleration , 1999 .

[206]  Thomas Brett Kirk,et al.  Automatic wear‐particle classification using neural networks , 1998 .

[207]  Homer Rahnejat,et al.  Comparison between experiments and numerical solutions for isothermal elastohydrodynamic point contacts , 1998 .

[208]  H. Lindenkamp,et al.  Measurements of the Lubricant Film Thickness in the Cylinder of a Firing Diesel Engine Using LIF , 1998 .

[209]  Tian Tian,et al.  Investigation of Oil Transport Mechanisms in the Piston Ring Pack of a Single Cylinder Diesel Engine, Using Two Dimensional Laser Induced Fluorescence , 1998 .

[210]  H. Spikes,et al.  EHD Film Thickness in Non-Steady State Contacts , 1998 .

[211]  C. Sujatha,et al.  Using neural networks for the diagnosis of localized defects in ball bearings , 1997 .

[212]  Homer Rahnejat,et al.  Torsional vibration analysis of a multi-body single cylinder internal combustion engine model , 1997 .

[213]  Doyle F. Busse,et al.  System electrical parameters and their effects on bearing currents , 1996, Proceedings of Applied Power Electronics Conference. APEC '96.

[214]  Duncan Dowson,et al.  Elastohydrodynamic and micro-elastohydrodynamic lubrication , 1995 .

[215]  D. Dowson,et al.  Cushion form Bearings for Total Knee Joint Replacement Part 1: Design, Friction and Lubrication , 1995, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[216]  U. Landman,et al.  Nanotribology: friction, wear and lubrication at the atomic scale , 1995, Nature.

[217]  R. Gohar,et al.  Measuring contact pressure distributions under elastohydrodynamic point contacts , 1994 .

[218]  Tien-I Liu,et al.  Diagnosis of roller bearing defects using neural networks , 1993 .

[219]  Ian Sherrington,et al.  An Experimental Investigation into the Lubrication of Piston Rings in an Internal Combustion Engine-Oil Film Thickness Trends, Film Stability and Cavitation , 1993 .

[220]  D. Dowson,et al.  Friction and Lubrication in Cushion Form Bearings for Artificial Hip Joints , 1993, Proceedings of the Institution of Mechanical Engineers. Part H, Journal of engineering in medicine.

[221]  W. Cheng-I,et al.  Elastohydrodynamic lubrication of piston rings , 1991 .

[222]  M. J. Costello,et al.  Shaft voltages and rotating machinery , 1991, Industry Applications Society 38th Annual Petroleum and Chemical Industry Conference.

[223]  S. M. Wu,et al.  On-Line Detection of Localized Defects in Bearings by Pattern Recognition Analysis , 1989 .

[224]  Homer Rahnejat,et al.  A knowledge-based system for sensor interaction and real-time component control , 1988 .

[225]  S. L. Mannan,et al.  Overview no. 49: On the mechanisms for the electroplastic effect in metals , 1986 .

[226]  R. Gohar,et al.  Pressure Distribution Under a Ball Impacting a Thin Lubricant Layer , 1986 .

[227]  D. Dowson,et al.  Micro-elastohydrodynamic lubrication of synovial joints. , 1986, Engineering in medicine.

[228]  Ian Sherrington,et al.  Experimental methods for measuring the oil-film thickness between the piston-rings and cylinder-wall of internal combustion engines , 1985 .

[229]  Shoichi Furuhama,et al.  New Device for the Measurement of Piston Frictional Forces in Small Engines , 1983 .

[230]  G. D. Knoll,et al.  Hydrodynamic Lubrication of Piston Skirts , 1982 .

[231]  Masaaki Takiguchi,et al.  Measurement of Piston Frictional Force in Actual Operating Diesel Engine , 1979 .

[232]  D Dowson,et al.  The characteristics of acetabular cups worn in the human body. , 1978, The Journal of bone and joint surgery. British volume.

[233]  R. Gohar,et al.  Oil Film Thickness in Lightly-Loaded Roller Bearings , 1974 .

[234]  A. Cameron,et al.  Elastohydrodynamic Lubrication of a Line Contact , 1974 .

[235]  J. Charnley,et al.  The long-term results of low-friction arthroplasty of the hip performed as a primary intervention. , 1972, The Journal of bone and joint surgery. British volume.

[236]  Duncan Dowson,et al.  Analysis of ‘Boosted Lubrication’ in Human Joints: , 1970 .

[237]  D Dowson,et al.  "Boosted lubrication" in synovial joints by fluid entrapment and enrichment. , 1968, Annals of the rheumatic diseases.

[238]  D. Dowson,et al.  Paper R2: Review of Symposium on Lubrication and Wear in Living and Artificial Human Joints, London, April 1967: , 1966 .

[239]  J. Kannel Paper 11: Measurements of Pressures in Rolling Contact: , 1965 .

[240]  R. Gohar,et al.  Optical Measurement of Oil Film Thickness under Elasto-hydrodynamic Lubrication , 1963, Nature.

[241]  M. Kirk Hydrodynamic Lubrication of ‘Perspex’ , 1962, Nature.

[242]  Ming-Kuei Hu,et al.  Visual pattern recognition by moment invariants , 1962, IRE Trans. Inf. Theory.

[243]  J CHARNLEY,et al.  The Lubrication of Animal Joints in Relation to Surgical Reconstruction by Arthroplasty * , 1960, Annals of the rheumatic diseases.

[244]  D. Dowson,et al.  A Numerical Solution to the Elasto-Hydrodynamic Problem , 1959 .

[245]  S. Tolansky The Measurement of Thin Film Thickness by Interferometry , 1951 .

[246]  N. Dolatabadi,et al.  Multibody Dynamics of Cross Groove Constant Velocity Ball Joints for High Performance Racing Applications , 2023, Mechanism and Machine Theory.

[247]  Feng Liu,et al.  Thermal Analysis Based on Dynamic Performance of Rocker Arm Full-Type Needle Bearings , 2022 .

[248]  Emerging Solutions for e-Mobility and Smart Grids , 2021, Springer Proceedings in Energy.

[249]  A. Polycarpou,et al.  Extreme environment tribological study of advanced bearing polymers for space applications , 2021 .

[250]  Vinícius Rückert Roso,et al.  Review of engine journal bearing tribology in start-stop applications , 2020 .

[251]  Benjamin J. Brelje,et al.  Electric, hybrid, and turboelectric fixed-wing aircraft: A review of concepts, models, and design approaches , 2019, Progress in Aerospace Sciences.

[252]  Automotive Tribology , 2019, Energy, Environment, and Sustainability.

[253]  Changjiang Zhou,et al.  Elastic dynamics modelling and analysis for a valve train including oil film stiffness and dry contact stiffness , 2019, Mechanism and Machine Theory.

[254]  H. Rahnejat,et al.  Heat generation and transfer in automotive dry clutch engagement , 2018 .

[255]  Homer Rahnejat,et al.  Enhanced performance of optimised partially textured load bearing surfaces , 2018 .

[256]  Homer Rahnejat,et al.  Tribology of power train systems , 2017 .

[257]  Zhiming Zhao,et al.  Tribo-dynamics Analysis of Satellite-bone Multi-axis Linkage System , 2015 .

[258]  A. Hase Fundamentals of Tribology , 2015 .

[259]  S. Verhelst,et al.  Hydrogen-fueled internal combustion engines , 2014 .

[260]  Bomidi John Abhishek Raj,et al.  Three-Dimensional Finite Element Elastic–Plastic Model for Subsurface Initiated Spalling in Rolling Contacts , 2014 .

[261]  Antti Lajunen,et al.  Energy consumption and cost-benefit analysis of hybrid and electric city buses , 2014 .

[262]  Nand Kishor,et al.  Off-shore wind farm development: Present status and challenges , 2014 .

[263]  S. Theodossiades,et al.  Transient Tribo-Dynamics of Thermo-Elastic Compliant High-Performance Piston Skirts , 2013, Tribology Letters.

[264]  R. Gohar,et al.  Boundary Conditions for Elastohydrodynamics of Circular Point Contacts , 2013, Tribology Letters.

[265]  Homer Rahnejat,et al.  Harmonic decomposition analysis of contact mechanics of bonded layered elastic solids , 2009 .

[266]  J. Charnley,et al.  The optimum size of prosthetic heads in relation to the wear of plastic sockets in total replacement of the hip , 2006, Medical and biological engineering.

[267]  Kambiz Farhang,et al.  A Multi-Scale System Analysis and Verification for Improved Contact Fatigue Life Cycle of a Cam-Roller System , 2006 .

[268]  Kellar Autumn,et al.  How Gecko Toes Stick , 2006 .

[269]  I. Etsion State of the art in Laser Surface Texturing , 2004 .

[270]  Ozgen Akalin,et al.  Piston Ring-Cylinder Bore Friction Modeling in Mixed Lubrication Regime: Part II—Correlation With Bench Test Data , 2001 .

[271]  Ozgen Akalin,et al.  Piston Ring-Cylinder Bore Friction Modeling in Mixed Lubrication Regime: Part I—Analytical Results , 2001 .

[272]  Bharat Bhushan,et al.  Tribology Issues and Opportunities in MEMS , 1998 .

[273]  H. Matsuoka An Ultrathin Liquid Film Lubrication Theory. Calculation Method of Solvation Pressure and its Application to the EHL Problem , 1995 .

[274]  Derek Y. C. Chan,et al.  The drainage of thin liquid films between solid surfaces , 1985 .

[275]  M.M.A. Safa,et al.  Transducers for pressure, temperature and oil film thickness measurement in bearings , 1982 .

[276]  J. W. Kannel,et al.  Methods for Determining Pressure Distributions in Lubricated Rolling Contact , 1965 .

[277]  M. Macconaill The Function of Intra-Articular Fibrocartilages, with Special Reference to the Knee and Inferior Radio-Ulnar Joints. , 2022, Journal of anatomy.