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Fluid Film Lubrication
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  • Cited by 66
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    This (lowercase (translateProductType product.productType)) has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Shah, Rajesh C. and Shah, Rajiv B. 2018. Derivation of ferrofluid lubrication equation for slider bearings with variable magnetic field and rotations of the carrier liquid as well as magnetic particles. Meccanica, Vol. 53, Issue. 4-5, p. 857.
    Zaouter, Tony Lasseux, Didier and Prat, Marc 2018. Gas slip flow in a fracture: local Reynolds equation and upscaled macroscopic model. Journal of Fluid Mechanics, Vol. 837, Issue. , p. 413.
    Walicka, A. Jurczak, P. and Falicki, J. 2017. Inertia and Couple-Stress Effects in a Curvilinear Thrust Hydrostatic Bearing. International Journal of Applied Mechanics and Engineering, Vol. 22, Issue. 3,
    Dolan, G. K. Yakubov, G. E. Bonilla, M. R. Lopez-Sanchez, P. and Stokes, J. R. 2017. Friction, lubrication, and in situ mechanics of poroelastic cellulose hydrogels. Soft Matter, Vol. 13, Issue. 19, p. 3592.
    Jamalabadi, Mohammad Yaghoub Abdollahzadeh 2017. Effects of Nanoparticle Enhanced Lubricant Films in Dynamic Properties of Plain Journal Bearings at High Reynolds Numbers. International Journal of Engineering and Technologies, Vol. 13, Issue. , p. 1.
    Lorenz, Norbert Offner, Günter and Knaus, Oliver 2017. Thermal analysis of hydrodynamic lubricated journal bearings in internal combustion engines. Proceedings of the Institution of Mechanical Engineers, Part K: Journal of Multi-body Dynamics, Vol. 231, Issue. 3, p. 406.
    Del Chiaro, Marco Forte, Paola Torrigiani, Francesco and Ciulli, Enrico 2017. Advances in Italian Mechanism Science. Vol. 47, Issue. , p. 411.
    Fusi, Lorenzo 2017. Non-isothermal flow of a Bingham fluid with pressure and temperature dependent viscosity. Meccanica, Vol. 52, Issue. 15, p. 3577.
    Griffini, D. Salvadori, S. and Martelli, F. 2016. Thermo-Hydrodynamic Analysis of Plain and Tilting Pad Bearings. Energy Procedia, Vol. 101, Issue. , p. 2.
    Zhang, Yongshun Chi, Minglu and Su, Zhongkan 2016. Critical Coupling Magnetic Moment of a Petal-Shaped Capsule Robot. IEEE Transactions on Magnetics, Vol. 52, Issue. 1, p. 1.
    Housiadas, Kostas D. 2015. Internal viscoelastic flows for fluids with exponential type pressure-dependent viscosity and relaxation time. Journal of Rheology, Vol. 59, Issue. 3, p. 769.
    Kligerman, Y and Shinkarenko, A 2015. Analysis of friction in surface textured components of reciprocating mechanism. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, Vol. 229, Issue. 4, p. 336.
    Zhang, Ying Oberdick, Samuel D. Swanson, Ellen R. Anna, Shelley L. and Garoff, Stephen 2015. Gravity driven current during the coalescence of two sessile drops. Physics of Fluids, Vol. 27, Issue. 2, p. 022101.
    Lorenz, Norbert Offner, Günter and Knaus, Oliver 2015. Fast thermo-elasto-hydrodynamic modeling approach for mixed lubricated journal bearings in internal combustion engines. Proceedings of the Institution of Mechanical Engineers, Part J: Journal of Engineering Tribology, Vol. 229, Issue. 8, p. 962.
    Akchurin, Aydar Bosman, Rob Lugt, Piet M. and van Drogen, Mark 2015. On a Model for the Prediction of the Friction Coefficient in Mixed Lubrication Based on a Load-Sharing Concept with Measured Surface Roughness. Tribology Letters, Vol. 59, Issue. 1,
    Zhang, Jun and Meng, Yonggang 2015. Boundary lubrication by adsorption film. Friction, Vol. 3, Issue. 2, p. 115.
    Huang, Shujuan Borca-Tasciuc, Diana-Andra and Tichy, John 2014. Limits of linearity in squeeze film behavior of a single degree of freedom microsystem. Microfluidics and Nanofluidics, Vol. 16, Issue. 6, p. 1155.
    Muminovic, Adil Repcic, Nedzad and Colic, Mirsad 2014. Thermo Elasto Hydrodynamic Lubrication Model of Mixed Friction. Procedia Engineering, Vol. 69, Issue. , p. 49.
    Shen, Feng Chen, Cong-Lian and Liu, Zhao-Miao 2014. Three-dimensional pressure- and shear-driven flow phenomena in a circular recess of a hydrostatic rotary table. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, Vol. 228, Issue. 6, p. 989.
    Zhang, Yongshun Bai, Jianwei Chi, Minglu Cheng, Cunxin and Wang, Dianlong 2014. Optimal control of a universal rotating magnetic vector for petal-shaped capsule robot in curve environment. Chinese Journal of Mechanical Engineering, Vol. 27, Issue. 5, p. 880.
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    Fluid Film Lubrication
    • Online ISBN: 9780511626401
    • Book DOI: https://doi.org/10.1017/CBO9780511626401
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Book description

Fluid film bearings are among the best devices for overcoming friction and eliminating wear. They are machine elements and, together with shafts, gears, and cams, constitute the building blocks engineers use in the design and construction of mechanical devices. This book offers a systematic treatment of the fundamentals of fluid film lubrication and fluid film bearings. The introduction places fluid film bearings within the broader context of tribology, a subject that encompasses friction, lubrication, and wear. The early chapters provide a thorough discussion of classical tribological theory. The remainder of the book is devoted to more advanced topics of inertia, thermal and turbulence effects, lubrication of counterformal contacts, and non-Newtonian lubricants. Also included are developing areas, such as lubrication with emulsions. Graduate and senior undergraduate students, researchers, and practising engineers will appreciate this clear, thorough discussion of fluid film lubrication and fluid film bearings.

Reviews

‘… should be considered as a comprehensive reference book, clearly written with a wealth of technological data. It should be found useful by scientists and engineers working in the field of lubrication.’

D. Barthès-Biesel Source: European Journal of Mechanics

‘… should be considered as a comprehensive reference book, clearly written with a wealth of technical data. it should be found useful by scientists and engineers working in the field of lubrication.’

Source: European Journal of Mechanics B/Fluids

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