LEADER 00862nam--2200337---450- 001 990001631410203316 005 20050302143813.0 035 $a000163141 035 $aUSA01000163141 035 $a(ALEPH)000163141USA01 035 $a000163141 100 $a20040504d1929----km-y0itay0103----ba 101 0 $aita 102 $aIT 105 $a||||||||001yy 200 1 $aLiguria$fStefano Grande 210 $aTorino$cUTET$d1929 215 $a411 p.$d27 cm 410 0$12001 454 1$12001 461 1$1001-------$12001 700 1$aGRANDE,$bStefano$0271492 801 0$aIT$bsalbc$gISBD 912 $a990001631410203316 951 $aIII.1. 1022(I C 203)$b7342 L.M.$cI C 959 $aBK 969 $aUMA 979 $aSIAV3$b10$c20040504$lUSA01$h1153 979 $aCOPAT3$b90$c20050302$lUSA01$h1438 996 $aLiguria$9683974 997 $aUNISA LEADER 10754nam 22004933 450 001 9911045225503321 005 20250320080345.0 010 $a9780443341502 010 $a0443341508 035 $a(MiAaPQ)EBC31963333 035 $a(Au-PeEL)EBL31963333 035 $a(CKB)37917033700041 035 $a(OCoLC)1511104586 035 $a(EXLCZ)9937917033700041 100 $a20250320d2025 uy 0 101 0 $aeng 135 $aurcnu|||||||| 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aEngineering Tribology 205 $a5th ed. 210 1$aChantilly :$cElsevier Science & Technology,$d2025. 210 4$dİ2026. 215 $a1 online resource (903 pages) 311 08$a9780443341496 311 08$a0443341494 327 $aCover -- ENGINEERING TRIBOLOGY -- Copyright -- Dedication -- Contents -- Preface -- Acknowledgements -- 1 INTRODUCTION -- 1.1 Background -- 1.2 Meaning of tribology -- Lubrication -- Wear -- 1.3 Cost of friction and wear -- 1.4 Summary -- Revision questions -- References -- 2 PHYSICAL PROPERTIES OF LUBRICANTS -- 2.1 Introduction -- 2.2 Oil viscosity -- Dynamic viscosity -- Kinematic viscosity -- 2.3 Viscosity temperature relationship -- Viscosity-temperature equations -- Viscosity-temperature chart -- 2.4 Viscosity index -- 2.5 Viscosity pressure relationship -- 2.6 Viscosity-shear rate relationship -- Pseudoplastic behavior -- Thixotropic behavior -- 2.7 Viscosity measurements -- Capillary viscometers -- Rotational viscometers -- Rotating cylinder viscometer -- Cone on plate viscometer -- Other viscometers -- 2.8 Viscosity of mixtures -- 2.9 Oil viscosity classification -- SAE viscosity classification -- ISO viscosity classification -- 2.10 Lubricant density and specific gravity -- 2.11 Thermal properties of lubricants -- Specific heat -- Thermal conductivity -- Thermal diffusivity -- 2.12 Temperature characteristics of lubricants -- Pour point and cloud point -- Flash point and fire point -- Volatility and evaporation -- Oxidation stability -- Thermal stability -- 2.13 Other lubricant characteristics -- Surface tension -- Neutralization number -- Carbon residue -- 2.14 Optical properties of lubricants -- Refractive index -- 2.15 Additive compatibility and solubility -- Additive compatibility -- Additive solubility -- 2.16 Electrical properties of lubricants -- 2.17 Lubricant impurities and contaminants -- Water content -- Sulphur content -- Ash content -- Chlorine content -- 2.18 Solubility of gases in oils -- 2.19 Summary -- Revision questions -- References -- 3 LUBRICANTS AND THEIR COMPOSITION -- 3.1 Introduction -- 3.2 Mineral oils. 327 $aSources of mineral oilsSources of mineral oils -- Manufacture of mineral oils -- Types of mineral oils -- Chemical forms -- Sulphur content -- Viscosity -- 3.3 Synthetic oils -- Manufacturing of synthetic oils -- Hydrocarbon synthetic lubricants -- Polyalphaolefins -- Polyphenyl ethers -- Esters -- Cycloaliphatics -- Polyglycols -- Silicon analogues of hydrocarbons -- Silicones -- Silahydrocarbons -- Organohalogens -- Perfluoropolyethers -- Chlorofluorocarbons -- Chlorotrifluoroethylenes -- Perfluoropolyalkylethers -- Cyclophosphazenes -- 3.4 New developments in synthetic lubricants -- Ionic liquid lubricants -- Mesogenic lubricants -- 3.5 Emulsions and aqueous lubricants -- Manufacturing of emulsions -- Characteristics -- Applications -- Polyelectrolyte lubricants -- 3.6 Greases -- Manufacturing of greases -- Composition -- Base oils -- Thickener -- Additives -- Fillers -- Lubrication mechanism of greases -- Grease characteristics -- Consistency of greases -- Mechanical stability -- Drop point -- Oxidation stability -- Thermal stability -- Evaporation loss -- Grease viscosity characteristics -- Classification of greases -- Grease compatibility -- Degradation of greases -- 3.7 Lubricant additives -- Wear and friction improvers -- Adsorption or boundary additives -- Antiwear additives -- Extreme-pressure additives -- Nanoparticle additives -- Anti-oxidants -- Oil oxidation -- Oxidation inhibitors -- Corrosion control additives -- Contamination control additives -- Viscosity improvers -- Pour point depressants -- Foam inhibitors -- Interference between additives -- 3.8 Summary -- Revision questions -- References -- 4 HYDRODYNAMIC LUBRICATION -- 4.1 Introduction -- 4.2 Reynolds equation -- Simplifying assumptions -- Equilibrium of an element -- Continuity of flow in a column -- Simplifications to the Reynolds equation. 327 $aUnidirectional velocity approximation -- Steady film thickness approximation -- Isoviscous approximation -- Infinitely long bearing approximation -- Narrow bearing approximation -- Bearing parameters predicted from Reynolds equation -- Pressure distribution -- Load capacity -- Friction force -- Coefficient of friction -- Lubricant flow -- Summary -- 4.3 Pad bearings -- Infinite linear pad bearing -- Bearing geometry -- Pressure distribution -- Load capacity -- Friction force -- Coefficient of friction -- Lubricant flow rate -- Infinite Rayleigh step bearing -- Other wedge geometries of infinite pad bearings -- Tapered land wedge -- Parabolic wedge -- Parallel surface bearings -- Spiral groove bearing -- Bearings with surface textures -- Finite pad bearings -- Pivoted pad bearing -- Inlet boundary conditions in pad bearing analysis -- 4.4 Converging-diverging wedges -- Bearing geometry -- Pressure distribution -- Full-Sommerfeld boundary condition -- Half-Sommerfeld boundary condition -- Reynolds boundary condition -- Load capacity -- 4.5 Journal bearings -- Evaluation of the main parameters -- Bearing geometry -- Pressure distribution -- Load capacity -- Friction force -- Coefficient of friction -- Lubricant flow rate -- Practical and operational aspects of journal bearings -- Lubricant supply -- Cavitation -- Journal bearings with movable pads -- Journal bearings incorporating a Rayleigh step -- Oil whirl or lubricant caused vibration -- Rotating load -- Tilted shafts -- Partial bearings -- Elastic deformation of the bearing -- Infinitely long approximation in journal bearings -- 4.6 Thermal effects in bearings -- Heat transfer mechanisms in bearings -- Conduction -- Convection -- Conducted/convected heat ratio -- Isoviscous thermal analysis of bearings -- Iterative method -- Constant flow method. 327 $aNon-isoviscous thermal analysis of bearings with locally varying viscosity -- Multiple regression in bearing analysis -- Bearing inlet temperature and thermal interaction between pads of a Michell bearing -- 4.7 Limits of hydrodynamic lubrication -- 4.8 Hydrodynamic lubrication with non-Newtonian fluids -- Turbulence and hydrodynamic lubrication -- Hydrodynamic lubrication with non-Newtonian lubricants -- Inertia effects in hydrodynamics -- Compressible fluids -- Compressible hydrodynamic lubrication in gas bearings -- 4.9 Reynolds equation for squeeze films -- Pressure distribution -- Load capacity -- Squeeze time -- Cavitation and squeeze films -- Microscopic squeeze film effects between rough sliding surfaces -- 4.10 Porous bearings -- 4.11 Summary -- Revision questions -- References -- 5 COMPUTATIONAL HYDRODYNAMICS -- 5.1 Introduction -- 5.2 Non-dimensionalization of the Reynolds equation -- 5.3 The Vogelpohl parameter -- 5.4 Finite difference equivalent of the Reynolds equation -- Definition of solution domain and boundary conditions -- Calculation of pressure field -- Calculation of dimensionless friction force and friction coefficient -- Numerical solution technique for Vogelpohl equation -- 5.5 Numerical analysis of hydrodynamic lubrication in idealized journal and partial arc bearings -- Example of data from numerical analysis, the effect of shaft misalignment -- 5.6 Numerical analysis of hydrodynamic lubrication in a real bearing -- 5.6.1 Thermohydrodynamic lubrication -- Governing equations and boundary conditions in thermohydrodynamic lubrication -- Governing equations in thermohydrodynamic lubrication for a one-dimensional bearing -- Thermohydrodynamic equations for the finite pad bearing -- Boundary conditions -- Finite difference equations for thermohydrodynamic lubrication. 327 $aTreatment of boundary conditions in thermohydrodynamic lubrication -- Computer program for the analysis of an infinitely long pad bearing in the case of thermohydrodynamic lubrication -- Example of the analysis of an infinitely long pad bearing in the case of thermohydrodynamic lubrication -- 5.6.2 Elastic deformations in a pad bearing -- Computer program for the analysis of an elastically deforming onedimensional pivoted Michell pad bearing -- Effect of elastic deformation of the pad on load capacity and film thickness -- 5.6.3 Cavitation and film reformation in grooved journal bearings -- Computer program for the analysis of grooved 360° journal bearings -- Example of the analysis of a grooved 360° journal bearing -- 5.6.4 Vibrational stability in journal bearings -- Determination of stiffness and damping coefficients -- Computer program for the analysis of vibrational stability in a partial arc journal bearing -- Example of the analysis of vibrational stability in a partial arc journal bearing -- 5.7 Computational evaluation of cavitation effects in hydrodynamic bearings -- 5.8 Summary -- Revision questions -- References -- 6 HYDROSTATIC LUBRICATION -- 6.1 Introduction -- 6.2 Hydrostatic bearing analysis -- Flat circular hydrostatic pad bearing -- Pressure distribution -- Lubricant flow -- Load capacity -- Friction torque -- Friction power loss -- Non-flat circular hydrostatic pad bearings -- Pressure distribution -- Lubricant flow -- Load capacity -- Friction torque -- Friction power loss -- 6.3 Generalized approach to hydrostatic bearing analysis -- Flat circular pad bearings -- Flat square pad bearings -- 6.4 Optimization of hydrostatic bearing design -- Minimization of power -- Low-speed recessed bearings -- High-speed recessed bearings -- Control of lubricant film thickness and bearing stiffness -- Stiffness with constant flow method. 327 $aStiffness with capillary restrictors. 330 $aEngineering Tribology, Fifth Edition takes an interdisciplinary approach to key concepts and engineering implications of tribology, bringing together the relevant knowledge needed from different fields to achieve effective analysis and control of friction and wear. 676 $a621.89 700 $aStachowiak$b Gwidon$01859983 701 $aBatchelor$b A. W$g(Andrew W.)$0477262 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9911045225503321 996 $aEngineering Tribology$94464416 997 $aUNINA