Verfügbarkeit: Friction science and technology

Friction science and technology: from concepts to applications

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1. Verfasser:	Blau, Peter J. (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, FL [u.a.] CRC Press 2009
Ausgabe:	2. ed.
Schlagworte:	Friction Reibung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XIV, 420 S. Ill., graph. Darst.
ISBN:	9781420054040

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adam_text	Contents Foreword ...................................................................................................................xi Preface ...................................................................................................................xiii Chapter 1 Introduction ..........................................................................................1 1.1 World of Frictional Phenomena: Great and Small ............................................3 1.2 Historical Background ......................................................................................7 1.3 Traditional Introductions to Solid Friction .....................................................12 1.4 Approach of This Book ...................................................................................13 References ................................................................................................................14 Chapter 2 Introductory Mechanics Approaches to Solid Friction ......................17 2.1 Basic Definitions of Friction Quantities ..........................................................17 2.2 Tipping and Onset of Slip ...............................................................................18 2.3 Introductory Friction Problems .......................................................................21 2.3.1 Case 1. Ladder against a Wall .............................................................22 2.3.2 Case 2. Speed of a Skier ......................................................................23 2.3.3 Case 3. Motorcycle Accident ...............................................................24 2.3.4 Case 4. Angle of Bank to Prevent Sliding of an Automobile on a Curve under Wet or Dry Conditions ...................24 2.3.5 Case 5. Friction Coefficient Required to Avoid Sliding on an Unbanked Curve in the Road ........................................25 2.4 Friction in Simple Machine Components .......................................................26 2.4.1 Wedge-Based Mechanisms ..................................................................26 2.4.2 Pivots, Collars, and Disks ....................................................................30 2.4.3 Belts and Ropes ...................................................................................31 2.4.4 Screws ..................................................................................................33 2.4.5 Shafts and Journal Bearings ................................................................35 2.5 Rolling Friction ...............................................................................................36 2.6 Friction in Gears .............................................................................................39 Further Reading .......................................................................................................41 References ................................................................................................................41 Chapters Measuring Friction in the Laboratory ................................................43 3.1 Classification of Tribometers ..........................................................................43 3.2 Specimen Preparation and Cleaning ...............................................................48 3.3 Design and Selection of Friction-Testing Methods .........................................52 3.3.1 Static Friction ......................................................................................56 3.3.2 Sliding Friction ....................................................................................61 3.3.3 Rolling Friction ...................................................................................64 vii viii Contents 3.3.4 Tests of Flexible Surfaces ....................................................................65 3.3.5 Standards.............................................................................................69 3.4 Specialized Friction Tests for Basic and Applied Research ...........................73 3.4.1 Nanoscale Friction ...............................................................................73 3.4.2 Microscale Ball-on-Flat Tests .............................................................76 3.4.3 Friction of a Fiber within a Composite ................................................78 3.4.4 Multidirectional Tribometers ..............................................................79 3.4.5 Friction of Impacting Spheres .............................................................79 3.4.6 Pendulum-Based Devices ....................................................................79 3.4.7 Friction Measurement Using Precision Chains ...................................81 3.4.8 Piston Ring and Cylinder Bore Friction ..............................................82 3.4.9 Friction of Brake Linings ....................................................................85 3.4.10 Tire/Road Surface Testing ...................................................................93 3.4.11 Walkway Friction Testing ....................................................................94 3.4.12 Metalworking ......................................................................................96 3.4.13 Friction of Rock ...................................................................................97 3.4.14 Friction of Currency ............................................................................98 3.5 Friction Sensing and Recording ......................................................................99 3.6 Designing Friction Experiments ...................................................................105 Appendix ................................................................................................................109 References ..............................................................................................................112 Chapter 4 Fundamentals of Sliding Friction .....................................................119 4.1 Macrocontact, Microcontact, and Nanocontact ............................................126 4.2 Static Friction and Stick-Slip ........................................................................132 4.3 Sliding Friction .............................................................................................155 4.3.1 Models for Sliding Friction ...............................................................157 4.3.1.1 Plowing Models ...................................................................157 4.3.1.2 Adhesion, Junction Growth, and Shear Models ..................159 4.3.1.3 Plowing with Debris Generation ..........................................163 4.3.1.4 Plowing with Adhesion ........................................................164 4.3.1.5 Single-Layer Shear Models ..................................................164 4.3.1.6 Multiple-Layer Shear Models ..............................................165 4.3.1.7 Molecular Dynamics Models ...............................................166 4.3.1.8 Stimulus-Response Dynamical Friction Models ................167 4.3.1.9 Ultralow Friction and Superlubricity ...............................168 4.3.1.10 Selecting Friction Models ....................................................169 4.3.2 Phenomenological, Graphical, and Statistical Approaches ...............169 4.3.3 Friction Models That Include Wear ...................................................170 4.4 Frictional Heating .........................................................................................171 References ..............................................................................................................178 Chapter 5 Solid Friction of Materials ...............................................................183 5.1 Friction of Wood, Leather, and Stone ...........................................................183 5.2 Friction of Metals and Alloys .......................................................................184 Contents ix 5.3 Friction of Glasses and Ceramics .................................................................189 5.4 Friction of Polymers ......................................................................................192 5.5 Friction of Carbon Materials Including Diamond ........................................................................................................200 5.6 Friction of Ice ................................................................................................204 5.7 Friction of Treated Surfaces ..........................................................................209 5.8 Friction of Particle Aggregates .....................................................................212 References ..............................................................................................................215 Chapter 6 Lubrication to Control Friction ........................................................221 6.1 Lubrication by Liquids and Greases .............................................................222 6.1.1 Liquid Lubrication .............................................................................222 6.1.2 Composition of Liquid Lubricants ....................................................232 6.1.2.1 Friction Polymers .................................................................242 6.1.2.2 Lubricating Characteristics of Ultrathin Layers ..................243 6.1.2.3 Ionic Liquid Lubricants .......................................................244 6.1.3 Grease Lubrication ............................................................................245 6.1.3.1 Liquid Crystal Lubricants ....................................................246 6.2 Lubrication by Solids ....................................................................................248 6.2.1 Role of Lamellar Crystal Structures ..................................................252 6.2.2 Simplified Models for Solid Lubrication ...........................................253 6.2.3 Graphite and Molybdenum Disulfide ................................................254 6.2.4 Solid Lubrication by Powders ............................................................257 6.3 Engineered Self-Lubricating Materials .........................................................260 References ..............................................................................................................263 Chapter 7 Effects of Tribosystem Variables on Friction ...................................269 7.1 Effects of Surface Finish ...............................................................................269 7.2 Effects of Load and Contact Pressure ...........................................................278 7.3 Effects of Sliding Velocity ............................................................................287 7.4 Effects of Type of Sliding Motion .................................................................293 7.5 Effects of Temperature ..................................................................................297 7.6 Effects of Surface Films and Chemical Environments .................................302 7.7 Stiffness and Vibration .................................................................................304 7.8 Combined Effects of Several Variables ........................................................309 References .............................................................................................................. 3·0 Chapter 8 Running-In and Other Friction Transitions ......................................315 8.1 Understanding and Interpreting Friction Transitions ...................................315 8.2 Friction Transitions during Running-In ........................................................321 8.2.1 Analysis of Running-In Behavior ......................................................322 8.2.2 Modeling of Running-In ....................................................................330 8.2.3 Monitoring and Developing Running-In Procedures ........................335 x Contents 8.2.4 Friction Process Diagrams ................................................................336 8.2.5 Fluctuations in Friction Force ...........................................................340 References ..............................................................................................................341 Chapter 9 Applications of Friction Technology ................................................345 9.1 Applications in Transportation Systems .......................................................345 9.1.1 Friction in Brakes ..............................................................................345 9.1.1.1 Brake Materials ....................................................................348 9.1.1.2 Brake Terminology and Jargon ............................................353 9.1.1.3 Aircraft Brakes ....................................................................354 9.1.2 Friction in Tires .................................................................................354 9.1.2.1 Tire Rolling Resistance ........................................................358 9.1.3 Friction in Internal Combustion Engines ..........................................359 9.2 Friction in Bearings and Gears .....................................................................365 9.2.1 Sliding Bearings ................................................................................367 9.2.2 Gears ..................................................................................................370 9.3 Friction in Sliding Seals ................................................................................372 9.4 Friction in Manufacturing Processes ............................................................373 9.4.1 Friction Cutting .................................................................................374 9.4.2 Machining of Metals .........................................................................376 9.4.3 Drawing and Rolling .........................................................................378 9.4.4 Friction Welding, Friction Stir Processing, and Friction Drilling ..........................................................................382 9.4.4.1 Friction Welding ..................................................................382 9.4.4.2 Friction Stir Welding, Friction Stir Processing, and Friction Drilling ............................................................384 9.5 Friction in Biomedical Applications .............................................................386 9.5.1 Friction of Skin ..................................................................................386 9.5.2 Friction in Contact Lenses .................................................................389 9.5.3 Friction in Artificial Joints ................................................................390 9.5.4 Friction in Stents ...............................................................................391 9.6 Other Applications of Friction Science .........................................................391 9.6.1 Friction of Flooring ...........................................................................391 9.6.2 Friction in Cables ..............................................................................393 9.6.3 Friction in Fasteners, Joints, and Belts ..............................................394 9.6.4 Friction in Particle Assemblages .......................................................395 9.6.5 Friction in Microtribology and Nanotribology .................................396 9.6.6 Amusement Park Rides .....................................................................397 9.7 Conclusion .....................................................................................................399 References ..............................................................................................................399 Index to Static and Kinetic Friction Coefficients .............................................407 Subject Index ........................................................................................................411
adam_txt	Contents Foreword .xi Preface .xiii Chapter 1 Introduction .1 1.1 World of Frictional Phenomena: Great and Small .3 1.2 Historical Background .7 1.3 Traditional Introductions to Solid Friction .12 1.4 Approach of This Book .13 References .14 Chapter 2 Introductory Mechanics Approaches to Solid Friction .17 2.1 Basic Definitions of Friction Quantities .17 2.2 Tipping and Onset of Slip .18 2.3 Introductory Friction Problems .21 2.3.1 Case 1. Ladder against a Wall .22 2.3.2 Case 2. Speed of a Skier .23 2.3.3 Case 3. Motorcycle Accident .24 2.3.4 Case 4. Angle of Bank to Prevent Sliding of an Automobile on a Curve under Wet or Dry Conditions .24 2.3.5 Case 5. Friction Coefficient Required to Avoid Sliding on an Unbanked Curve in the Road .25 2.4 Friction in Simple Machine Components .26 2.4.1 Wedge-Based Mechanisms .26 2.4.2 Pivots, Collars, and Disks .30 2.4.3 Belts and Ropes .31 2.4.4 Screws .33 2.4.5 Shafts and Journal Bearings .35 2.5 Rolling Friction .36 2.6 Friction in Gears .39 Further Reading .41 References .41 Chapters Measuring Friction in the Laboratory .43 3.1 Classification of Tribometers .43 3.2 Specimen Preparation and Cleaning .48 3.3 Design and Selection of Friction-Testing Methods .52 3.3.1 Static Friction .56 3.3.2 Sliding Friction .61 3.3.3 Rolling Friction .64 vii viii Contents 3.3.4 Tests of Flexible Surfaces .65 3.3.5 Standards.69 3.4 Specialized Friction Tests for Basic and Applied Research .73 3.4.1 Nanoscale Friction .73 3.4.2 Microscale Ball-on-Flat Tests .76 3.4.3 Friction of a Fiber within a Composite .78 3.4.4 Multidirectional Tribometers .79 3.4.5 Friction of Impacting Spheres .79 3.4.6 Pendulum-Based Devices .79 3.4.7 Friction Measurement Using Precision Chains .81 3.4.8 Piston Ring and Cylinder Bore Friction .82 3.4.9 Friction of Brake Linings .85 3.4.10 Tire/Road Surface Testing .93 3.4.11 Walkway Friction Testing .94 3.4.12 Metalworking .96 3.4.13 Friction of Rock .97 3.4.14 Friction of Currency .98 3.5 Friction Sensing and Recording .99 3.6 Designing Friction Experiments .105 Appendix .109 References .112 Chapter 4 Fundamentals of Sliding Friction .119 4.1 Macrocontact, Microcontact, and Nanocontact .126 4.2 Static Friction and Stick-Slip .132 4.3 Sliding Friction .155 4.3.1 Models for Sliding Friction .157 4.3.1.1 Plowing Models .157 4.3.1.2 Adhesion, Junction Growth, and Shear Models .159 4.3.1.3 Plowing with Debris Generation .163 4.3.1.4 Plowing with Adhesion .164 4.3.1.5 Single-Layer Shear Models .164 4.3.1.6 Multiple-Layer Shear Models .165 4.3.1.7 Molecular Dynamics Models .166 4.3.1.8 Stimulus-Response Dynamical Friction Models .167 4.3.1.9 Ultralow Friction and "Superlubricity" .168 4.3.1.10 Selecting Friction Models .169 4.3.2 Phenomenological, Graphical, and Statistical Approaches .169 4.3.3 Friction Models That Include Wear .170 4.4 Frictional Heating .171 References .178 Chapter 5 Solid Friction of Materials .183 5.1 Friction of Wood, Leather, and Stone .183 5.2 Friction of Metals and Alloys .184 Contents ix 5.3 Friction of Glasses and Ceramics .189 5.4 Friction of Polymers .192 5.5 Friction of Carbon Materials Including Diamond .200 5.6 Friction of Ice .204 5.7 Friction of Treated Surfaces .209 5.8 Friction of Particle Aggregates .212 References .215 Chapter 6 Lubrication to Control Friction .221 6.1 Lubrication by Liquids and Greases .222 6.1.1 Liquid Lubrication .222 6.1.2 Composition of Liquid Lubricants .232 6.1.2.1 Friction Polymers .242 6.1.2.2 Lubricating Characteristics of Ultrathin Layers .243 6.1.2.3 Ionic Liquid Lubricants .244 6.1.3 Grease Lubrication .245 6.1.3.1 Liquid Crystal Lubricants .246 6.2 Lubrication by Solids .248 6.2.1 Role of Lamellar Crystal Structures .252 6.2.2 Simplified Models for Solid Lubrication .253 6.2.3 Graphite and Molybdenum Disulfide .254 6.2.4 Solid Lubrication by Powders .257 6.3 Engineered Self-Lubricating Materials .260 References .263 Chapter 7 Effects of Tribosystem Variables on Friction .269 7.1 Effects of Surface Finish .269 7.2 Effects of Load and Contact Pressure .278 7.3 Effects of Sliding Velocity .287 7.4 Effects of Type of Sliding Motion .293 7.5 Effects of Temperature .297 7.6 Effects of Surface Films and Chemical Environments .302 7.7 Stiffness and Vibration .304 7.8 Combined Effects of Several Variables .309 References . 3·0 Chapter 8 Running-In and Other Friction Transitions .315 8.1 Understanding and Interpreting Friction Transitions .315 8.2 Friction Transitions during Running-In .321 8.2.1 Analysis of Running-In Behavior .322 8.2.2 Modeling of Running-In .330 8.2.3 Monitoring and Developing Running-In Procedures .335 x Contents 8.2.4 Friction Process Diagrams .336 8.2.5 Fluctuations in Friction Force .340 References .341 Chapter 9 Applications of Friction Technology .345 9.1 Applications in Transportation Systems .345 9.1.1 Friction in Brakes .345 9.1.1.1 Brake Materials .348 9.1.1.2 Brake Terminology and Jargon .353 9.1.1.3 Aircraft Brakes .354 9.1.2 Friction in Tires .354 9.1.2.1 Tire Rolling Resistance .358 9.1.3 Friction in Internal Combustion Engines .359 9.2 Friction in Bearings and Gears .365 9.2.1 Sliding Bearings .367 9.2.2 Gears .370 9.3 Friction in Sliding Seals .372 9.4 Friction in Manufacturing Processes .373 9.4.1 Friction Cutting .374 9.4.2 Machining of Metals .376 9.4.3 Drawing and Rolling .378 9.4.4 Friction Welding, Friction Stir Processing, and Friction Drilling .382 9.4.4.1 Friction Welding .382 9.4.4.2 Friction Stir Welding, Friction Stir Processing, and Friction Drilling .384 9.5 Friction in Biomedical Applications .386 9.5.1 Friction of Skin .386 9.5.2 Friction in Contact Lenses .389 9.5.3 Friction in Artificial Joints .390 9.5.4 Friction in Stents .391 9.6 Other Applications of Friction Science .391 9.6.1 Friction of Flooring .391 9.6.2 Friction in Cables .393 9.6.3 Friction in Fasteners, Joints, and Belts .394 9.6.4 Friction in Particle Assemblages .395 9.6.5 Friction in Microtribology and Nanotribology .396 9.6.6 Amusement Park Rides .397 9.7 Conclusion .399 References .399 Index to Static and Kinetic Friction Coefficients .407 Subject Index .411
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spelling	Blau, Peter J. Verfasser aut Friction science and technology from concepts to applications Peter J. Blau 2. ed. Boca Raton, FL [u.a.] CRC Press 2009 XIV, 420 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Includes bibliographical references and index Friction Reibung (DE-588)4049098-1 gnd rswk-swf Reibung (DE-588)4049098-1 s DE-604 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016761782&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Blau, Peter J. Friction science and technology from concepts to applications Friction Reibung (DE-588)4049098-1 gnd
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title	Friction science and technology from concepts to applications
title_auth	Friction science and technology from concepts to applications
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title_full	Friction science and technology from concepts to applications Peter J. Blau
title_fullStr	Friction science and technology from concepts to applications Peter J. Blau
title_full_unstemmed	Friction science and technology from concepts to applications Peter J. Blau
title_short	Friction science and technology
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