Introduction: Docteur Honoris Causa | |
Debris From tbe Cradle to the Grave: "The Real Story" | |
Keynote Address | |
Atomic Scale Mechanisms of Adhesion, Friction and Wear | p. 3 |
Particle Detachment 1 | |
Mechanisms of the Generation of Wear Particles of Ultra-High Molecular Weight Polyethylene | p. 29 |
Adhesion for Coatings | p. 41 |
Debris Detachment in Plastic Contacts | p. 49 |
Lubricant Screening for Debris Effects to Improve Fatigue, and Wear Life | p. 57 |
Particle Formation and Detachment | |
Impact Wear Analysis | p. 67 |
The Determination of Particle Morphological Parameters to Assist in Elucidation of the Wear Process | p. 75 |
Wear Particle Formation in Lubricated Sliding Between a Hardened Sphere and a Flat Surface | p. 81 |
Wear Debris Formation and Tool Transfer Build-Up in Sheet Metal Forming | p. 91 |
Fracture Mechanics and Spall Detachment in Cyclic Hertzian Contacts: Theory and Computer Simulation | p. 101 |
Wear Particles Forming By Phase Transformation in PSZ Ceramics During High Speed Sliding | p. 115 |
Tribology of Metal-Matrix Composites: Formation and Attrition of Transfer Films | p. 121 |
Wear Particles from Abrasion of WC-Co Cemented Carbides | p. 131 |
Analysis of Particle Detachment Due to Finishing Cutting Wear | p. 139 |
Deformation of a Particular Metallic Contaminant and Role on Surface Damage in High Speed Ball Bearings | p. 145 |
Contact Theory and Wear Laws | |
Third Bodies in Wear Models | p. 155 |
Wear Data: What Can be Made of It? Simulation Tuning | p. 161 |
Analysis of the Influence of Indentations on Contact Life | p. 173 |
Modification of the Two-Body Contact Conditions to Account for the Third Body | p. 183 |
Contact Theory and Flow | |
Modelling a Ball-on-Disk Experiment for the System 100Cr6 Steel vs (Ti,X)N Coating | p. 193 |
The Wear of Particles in Pneumatic Conveying | p. 203 |
An Investigation into the Orientation of Lubricant Molecules in EHD Contacts | p. 209 |
Numerical Experiments with Flows of Elongated Granules | p. 219 |
Particle Detachment 2 | |
First Body Behaviour Before Debris Formation | p. 229 |
Particle Detachment Processes in the Dry and Lubricated Wear of Ceramics | p. 237 |
Microscopic Wear Debris Generation and Surface Topography | p. 247 |
Sliding Microindentation Wear Particles : Spheres in Grinding Swarf | p. 257 |
Physics, Chemistry and Materials 1 | |
Chemical Wear of Steels by Extreme Pressure Additives Under Air and Vacuum Conditions | p. 267 |
On the Wear Mechanism of PTFE | p. 273 |
Enhancement of the Growth of Transfer Particle by the Environmental Molecules in Adhesive Wear | p. 281 |
Rolls Formation with Triboceramics: Which Parameters and What Mechanisms? | p. 285 |
Chemical and MicroStructural Aspects of Debris Formation in Mild Sliding Wear | p. 293 |
Frictional Properties and Tribo-Chemical Wear of a Molybdenum Coating | p. 301 |
Friction-Transfer Relations in Discontinuous Transfer Films | p. 313 |
Tribochemical Reaction of Oxygen and Water on Silicon Surfaces | p. 323 |
One of the Many Possible Ways to Produce Wear Debris | p. 329 |
Third Body Rheology | |
Phenomenological Models of Third Body Rheology | p. 337 |
Wear Debris Agglomeration in Dry and Boundary Lubricated Sliding | p. 347 |
On Some Experimental Rheological Aspects of Tribo Particulates | p. 357 |
Role of Wear Debris in the Environmental Effect in Tribology | p. 369 |
Physics, Chemistry and Materials 2 | |
Field Ion Microscope Studies of Wear Particle Formation as Related to the Mesoscopic View of Tribology | p. 377 |
The Removal of Substrate Material Through Thick Zinc Dithiophosphate Anti-Wear Films | p. 387 |
Tribological Behavior of Niobium Ions Implanted Sapphire: Formation and Properties of a Transfer Layer | p. 397 |
Particle Detachment 3 | |
The Role of Characterization in Understanding Debris Generation | p. 405 |
In Situ Structural Changes of Lubricated Surfaces, As Studied by EXAFS | p. 413 |
Residual Stress Induced Wear Particle Generation | p. 419 |
Mechanics of Wear Particle Detachment - Analysis with a Longitudinal Contact-Point Model | p. 427 |
Flow and Applications | |
Triboscopy, A New Approach to Study a Sliding Interface and the History of its Degradations | p. 437 |
Some Third-Body Tribology Effects in Conforming Contacts Sliding in High Vacuum | p. 445 |
Wear Debris Action in Sliding Friction of Ceramics | p. 453 |
The Role of Wear Particles in Modifying Coefficients of Friction | p. 463 |
Effects of Tribo-Electrification on Wear Particles Behavior of Ceramics | p. 469 |
An Experimental Study on the Mechanism of Material Transfer in Friction Couple: Asbestos-Reinforced Friction Material-Steel | p. 477 |
Monitoring of Wear of Large Machinery with Use of Oil Sampling | p. 483 |
Wear of Oxide Magnetic Recording Disks | p. 487 |
Behaviour of Emulsion Oil Particles in Concentrated Contacts | p. 493 |
Effects of Load and Temperature on the Formation of Rolls by Reciprocal Sliding of Silicon-on-Silicon at 34% Humidity | p. 501 |
Particle Morphology | |
Generation of Wear Particles Under Mixed Stick-Slip Conditions in Fretting Contacts | p. 509 |
Ball Mill Simulation of Wear Debris Attrition | p. 515 |
Size Distribution and Number of Wear Particles Generated by the Abrasive Sliding of a Model Asperity in the SEM-Tribosystem | p. 523 |
Friction-Induced Disorder in Wear Debris | p. 531 |
List of Attending Authors | p. 537 |
List of Delegates | p. 543 |
List of Personnel, other than Delegates | p. 549 |
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