Verfügbarkeit: Fundamentals of tribology

Fundamentals of tribology:

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Hauptverfasser:	Gohar, Ramsey (VerfasserIn), Rahnejat, Homer (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	London Imperial College Press 2008
Schlagworte:	Tribology Tribologie
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXVI, 391 S. Ill., graph. Darst.
ISBN:	9781848161849 1848161840

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adam_text	CONTENTS Preface v Notation ix 1. Introduction to Tribology 1 1.1. Introduction ........................ 1 1.2. Regimes of Lubrication .................. 4 1.3. Layout of the Book .................... 6 References ............................. 7 2. The Nature of Rough Surfaces 9 2.1. Introduction ........................ 9 2.2. Surface Roughness .................... 10 2.3. Measurement of Surface Texture ............. 10 2.4. Types of Engineering Surface .............. 12 2.5. Mathematical Representation of Surface Features . . . 13 2.5.1. Analogue solutions ............... 13 2.5.2. Discrete int erval solutions of profile height, . . 17 2.5.3. Statistical representation of surface texture . 17 2.6. Worked Example ..................... 20 2.7. Closure ........................... 21 References ............................. 21 3. Elastic Solids in Normal Contact 23 3.1. Introduction ........................ 23 3.2. Deformation Characteristics ............... 23 3.3. Surface Deformation in a Spherical Contact ...... 29 3.4. Various Contact Geometries ............... 32 3.4.1. Line or circular footprint contacts ....... 32 3.4.2. Elliptical footprint contacts .......... 33 xx Fundamentals of Tribology 3.4.3. Worked Example (1).............. 33 3.5. Onset of Yield ....................... 35 3.5.1. Cylindrical surfaces ............... 35 3.5.2. Spherical surfaces ................ 37 3.6. Nominally Flat Rough Surfaces in Contact ....... 38 3.6.1. Idealized rough surfaces ............ 38 3.6.2. Contact between real rough surfaces ..... 40 3.6.3. Plasticity index ................. 43 3.6.4. Fully plastic surface contacts ......... 44 3.6.5. Worked Example (2).............. 46 3.7. Contact Between Curved Rough Surfaces ........ 46 3.8. Hertzian Impact ...................... 47 3.9. Closure ........................... 48 Appendices ............................. 50 References ............................. 50 4. Dry Friction and Wear 51 4.1. Introduction ........................ 51 4.2. The Basic Mechanisms of Dry Friction ......... 54 4.2.1. Adhesion and deformation ........... 54 4.2.2. Adhesive friction ................ 55 4.2.2.1. Influence of contaminant films . ... 59 4.2.3. Deformation friction .............. 60 4.2.3.1. The ploughing component of deformation friction ......... 61 4.2.4. Elastic rolling friction ............. 62 4.2.5. Tractive rolling of an elastic cylinder ..... 64 4.2.6. Creep ratio ................... 66 4.2.7. Other examples of rolling motion ....... 66 4.3. Thermal Effects of a Frictional Temperature Rise in Concentrated Contacts .................. 67 4.4. Wear of Surfaces ..................... 68 4.4.1. Adhesive wear .................. 69 4.4.2. Abrasive wear .................. 71 4.4.3. Macroscopic fatigue wear ........... 72 4.4.4. Microscopic sliding fatigue wear ........ 73 4.4.5. Corrosive wear ................. 74 4.4.6. Fretting corrosion ................ 74 Contents xxi 4.5. Closure ........................... 75 References ............................. 75 5. Lubricant Properties 77 5.1. Introduction ........................ 77 5.2. Dynamic Viscosity .................... 77 5.3. Effect of Temperature on Viscosity ........... 79 5.4. The American Society for Testing Materials (A.S.T.M.) Chart ..................... 80 5.5. Viscosity Index of Lubricants (VI) ............ 80 5.6. Polymer Thickened Oils ................. 81 5.7. Blends of Oils ....................... 82 5.8. Grades of Oil ....................... 83 5.9. Effect of Pressure on Viscosity .............. 83 5.10. Lubricant Density ..................... 85 5.11. Effect of Shear Rate on Viscosity ............ 8(j 5.12. Worked Example ..................... 8(i 5.13. Closure ........................... 88 References ............................. 88 6. The Reynolds and Energy Equations 89 Ü.I. Introduction ........................ 89 6.2. Reynolds Equation .................... 89 6.3. Reynolds Equation by Dimensional Analysis ...... 91 6.4. Derivation of Reynolds Equation in Three Dimensions 91 6.4.1. Equilibrium of forces on a lubricant clement . 95 6.4.2. Velocity distribuí ion .............. 90 6.4.3. Mass continuity ................. 97 6.5. Simplifications of Reynolds Equation .......... !)!) 6.5.1. Long bearing .................. 100 6.5.2. Long bearing approximation for rigid cylinders 101 6.5.3. Line contact pressure distribution ....... 101 6.5.4. Line contact load ................ 104 6.5.5. Narrow bearings ................ 105 6.5.6. Squeeze film bearings .............. 100 6.6. Rolling Contacts ..................... 106 6.7. The Energy Equation ................... 107 6.7.1. Significance of terms in the energy equation . 108 6.7.2. Convected heat only .............. 10!) xxii Fundamentals of Tribology 6.7.3. Conducted heat only .............. 109 6.7.4. Heat flow ratio ................. 110 6.8. Closure ........................... 110 References ............................. Ill 7. Thrust Bearings 113 7.1. Introduction ........................ 113 7.2. Analysis of Thrust Bearings ............... 114 7.2.1. Geometry .................... 114 7.2.2. Pressure distribution .............. 114 7.2.3. Load capacity .................. 116 7.2.4. Pivot point location .............. 117 7.2.5. Friction force .................. 120 7.2.6. Mass flow .................... 121 7.2.7. Temperature effect ............... 122 7.2.8. Effective temperature ............. 124 7.3. Finite Length Plane Thrust Bearings .......... 125 7.3.1. Introduction ................... 125 7.3.2. Thermal design of finite length bearings . . . 125 7.3.3. Power balance for the effective viscosity . . . 126 7.3.4. Effective temperature design coefficients . . . 127 7.4. Examples of Thermal Design ............... 128 7.4.1. Long hearing .................. 128 7.4.2. Finite length hearing .............. 130 7.5. Other Thrust Bearing Geometries ............ 132 7.5.1. The taper land bearing ............. 133 7.5.2. The Raleigh step bearing ........... 133 7.5.3. The pocket step bearing ............ 135 7.6. Closure ........................... 135 Appendices ............................. 136 References ............................. 136 8. Journal Bearings 139 8.1. Introduction ........................ 139 8.2. Film Geometry ...................... 139 8.3. The Pressure Equation for a Narrow Bearing ...... 140 8.4. Load ............................ 142 8.5. Attitude Angle ...................... 144 8.6. Lubricant Flow ...................... 145 Conteras ххШ 8.6.1. Side flow from hydrodynamic action ..... 145 8.6.2. Pressurized flow from a single supply hole . . 145 8.6.3. Total pump delivery flow ............ 146 8.6.4. Double 180° journal bearings ......... 147 8.6.5. Circumferential groove bearings ........ 148 8.7. Friction in Journal Bearings ............... 148 8.7.1. Effect of the Reynolds boundary condition on friction .................... 150 8.7.2. Coefficient of friction .............. 151 8.8. Thermal Design of Journal Bearings ........... 151 8.8.1. Introduction ................... 151 8.8.2. Finding the effective viscosity ......... 152 8.8.3. Design example (Some of the data in this example is taken from Ref. 5)......... 154 8.9. Mass Unbalance in Rotors ................ 155 8.9.1. Natural frequency of journal bearings ..... 157 8.9.2. Half speed cylindrical whirl of journal bearings 150 8.9.3. Natural frequency of the complete rotor/ bearing system ................. НП 8.10. Journal Bearings with Periodic and Rotating Loads . . 161 8.11. Closure ........................... N¡1 Appendices ............................. 1G2 References ............................. HU 9. Externally Pressurized (EP) Bearings 165 9.1. Introduction ........................ 1(>Г) 3.2. Some Applications of EP Bearings ............ Hifi 9.3. Principles of Hydrostatic Bearings ............ 1(1(i 9.3.1. Optimization .................. 1(i!) 9.3.2. Stiffness ..................... 1(i!) 9.3.3. Compensators .................. 9.3.4. Worked Example 1............... 17:i 9.4. Principles of Aerostatic Bearings ............ i7J 9.4.1. Introduction ................... l J 9.4.2. Flow through the gas film ........... ^4 9.4.3. Gas flow through the feed hole ........ ^ 9.4.4. Matching the gas flows ............. llJ 9.4.5. Aerostatic gas bearing load capacity ..... l^·1 9.4.6. Aerostatic bearing Ніш stiffness ........ li!) xxiv Fundamentals of Tribology 9.4.7. Worked Example 2............... 181 9.4.8. Aerostatic journal bearings .......... 182 9.4.9. Aerostatic journal bearing instability ..... 183 9.5. Closure ........................... 184 References ............................. 184 10. Elastohydrodynamic Lubrication (EHL) 185 10.1. Introduction ........................ 185 10.2. Principles of EHL ..................... 185 10.3. Reynolds Equation Under Piezoviscous Conditions . . 188 10.4. Discussion on EHL Line Contact Film Shape ...... 192 10.5. Circular Footprint EHL Contacts ............ 192 10.6. Numerical Predictions .................. 192 10.7. Computer Solution .................... 195 10.8. Experimental Methods .................. 196 10.8.1. Optical interferometry ............. 196 10.9. Results from Numerical Solutions ............ 200 10.9.1. Regimes of concentrated contact lubrication . 200 10.9.2. Concentrated contact numerical solution relationships ................... 201 Worked Example 10.1....................... 203 10.10. Friction Forces in EHL Contacts ............. 205 10.10.1. A viscoelastic model of the oil behavior . . . 205 10.10.2. Limiting shear stress .............. 207 10.10.3. Regimes of traction ............... 209 10.10.4. Determination of the friction coefficient . . . 209 10.11. Rough Surface EHL .................... 213 10.12. Closure ........................... 215 References ............................. 215 11. Fatigue Life of Rolling Element Bearings 217 11.1. Introduction ........................ 217 11.2. Failure Stress Hypotheses ................ 219 11.2.1. Asperity stress field ............... 219 11.2.2. Subsurface stress field ............. 219 11.3. Fatigue Life Dispersion .................. 220 11.4. Effect of Load on Fatigue Life .............. 225 11.5. Effect of ĽHL on Fatigue Life .............. 225 11.0. A Unified Life Model ................... 226 Contents xxv 11.7. Closure ........................... 227 References ............................. 227 12. Transient Elastohydrodynamic Lubrication 229 12.1. Introduction ........................ 229 12.2. A Valve Train System ................... 230 12.2.1. An example ................... 239 12.3. EHL of Thin Shell Journal Bearings ........... 243 12.4. Transient EHL of Piston-to-Cylindcr Liner ....... 249 12.5. Closure ........................... 262 References ............................. 203 13. Nano-Tribology 265 13.1. Introduction ........................ 265 13.2. Important Forces in Nano-Tribology .......... 268 13.3. Van der Waals Forces ................... 269 13.3.1. Concluding remarks on Van der Waals forces 270 13.4. Electrostatic Forces .................... 271 13.4.1. An example ................... 274 13.5. Meniscus/Surface Tension Force ............. 277 13.5.1. An example ................... 292 13.6. Solvation Effect ...................... 293 13.6.1. An example ................... 297 13.7. Mechanisms of Friction in Nano-Conjunetions ..... 299 13.7.1. An example ................... 304 References ............................. 307 14. Bio-Tribology 309 14.1. Introduction ........................ 309 14.2. Tribology in the Animal World ............. 310 14.2.1. Allometry .................... 310 14.2.2. Forces and stresses ............... 311 14.3. Attachment and Locomotion of Small Animals on Smooth Surfaces .................... 311 14.4. Natural Human Synovial Joints ............. 315 14.4.1. Measurement of friction ............. 310 14.4.2. Lubrication of synovial joints ......... 317 14.4.3. Analysis of fluid-film lubrication in joints . . 317 xxvi Fundamentals of Tribology 14.4.4. Evidence of boundary lubrication in synovial joints ................ 320 14.4.5. Overall view of human joint lubrication . . . 321 14.5. Total Joint Replacements ................. 321 14.5.1. The hip ..................... 322 14.5.2. Metal-on-metal total hip replacements .... 324 14.5.3. Alternative material pairs ........... 326 14.6. Further Examples of Bio-Tribology ........... 327 14.6.1. Skin ....................... 327 14.6.2. Hair ....................... 328 14.6.3. Shaving ..................... 328 14.6.4. Teeth ...................... 329 14.7. Closure ........................... 329 References ............................. 330 Questions 333 Book of Solutions 355 Index 387 There are many occasions when quick solutions to problems in tribology are needed. For example, an understanding of the lubrication mechanism in a racing car engine has led to an improvement in performance. Why does a woman s face cream make her look younger for a time? Tribologists are frequently summoned in legal cases as expert witnesses after people have slipped in public places. Improvements to the human artificial hip joint are also partly a result of extensive tribology research In order to solve such problems, tribology should be regarded as an important undergraduate course. This book covers tribology in such a way as to provide simple approximate solutions to frequent practical problems. Unlike previous books, which catered for earlier generations of undergraduates, today s students generally have sophisticated computer systems available in their colleges. Therefore, many of the worked and set examples in the book are made easier by using readily available software such as Math CAD. Readers will thus gain practice in using it. and will benefit in general by understanding the mathematical principles involved in the solutions. This book is particularly useful to engineering undergraduates and practicing engineers needing a quick solution to tribological problems.
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spelling	Gohar, Ramsey Verfasser aut Fundamentals of tribology R. Gohar ; H. Rahnejat London Imperial College Press 2008 XXVI, 391 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Tribology Tribologie (DE-588)4060847-5 gnd rswk-swf Tribologie (DE-588)4060847-5 s DE-604 Rahnejat, Homer Verfasser aut Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017101816&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017101816&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Gohar, Ramsey Rahnejat, Homer Fundamentals of tribology Tribology Tribologie (DE-588)4060847-5 gnd
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title	Fundamentals of tribology
title_auth	Fundamentals of tribology
title_exact_search	Fundamentals of tribology
title_full	Fundamentals of tribology R. Gohar ; H. Rahnejat
title_fullStr	Fundamentals of tribology R. Gohar ; H. Rahnejat
title_full_unstemmed	Fundamentals of tribology R. Gohar ; H. Rahnejat
title_short	Fundamentals of tribology
title_sort	fundamentals of tribology
topic	Tribology Tribologie (DE-588)4060847-5 gnd
topic_facet	Tribology Tribologie
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017101816&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=017101816&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA
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