WearDouglas Scott Good,No Highlights,No Markup,all pages are intact, Slight Shelfwear,may have the corners slightly dented, may have slight color changes/slightly damaged spine. |
Contents
Theories of Wear and Their Significance for Engineering Practice F T Barwell I Introduction II Wear in Vacuum or Inert Gases III Wear in Air with... | 1 |
References | 2 |
The Wear of Polymers D C Evans and J K Lancaster I Introduction II Materials III Friction IV Wear Testing V Abrasion VI Fatigue VII Adhesion VI... | 85 |
Copyright | |
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Common terms and phrases
abrasive particles abrasive wear adhesive wear alloys aluminum angle applications ASLE Trans asperities austenite bearing behavior brittle carbon cast iron caused cemented carbide chromium coefficient of friction Conf copper corrosion counterface cracks crater cutting speed cutting steel damage debris disks ductile edge effect elastic elastohydrodynamic Engineers EP additives erosion factors failure fiber film fracture fretting friction and wear gears graphite groove hardening hardness heat high-speed high-speed steel hydrodynamic impact increase indentation Inst interface Lancaster layer load London lubricant m/sec machine martensite material removal Mech mechanism metal nitriding occurs oxide particle contact plastic deformation polymers Proc properties PTFE quartz rake face rate of wear reduced relatively rolling contact fatigue scuffing seizure shear shown in Fig shows silicon sliding speed stress Tabor tests thickness tion total contact temperature treatment Tribology tungsten carbide velocity viscosity volume wear wear rate wear resistance worn