Wear
Treatise on Materials Science and Technology, Vol. 13
Published on 22. October 2013
516 pages
978-1-4832-1822-9 (ISBN)
Description
Treatise on Materials Science and Technology, Volume 13: Wear provides a state of the art review of wear to form a basis for all future work on the subject and to be a standard work for all in the field. The book discusses the theories of wear and their significance for engineering practice; the wear of polymers; and the wear of carbons and graphites. The text also describes scuffing with regard to its physical manifestations, its importance in practice, theoretical interpretations advanced to describe and explain its occurrence. Abrasive wear; fretting; erosion caused by impact of solid particles; rolling contact fatigue; wear resistance of metals; and wear of metal-cutting tools are also looked into. Research workers, academic personnel, and students, as well as to tribologists, designers, practicing engineers, material scientists, physicists, chemists, and petroleum technologists will find the book invaluable.
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01/1979
Academic Press
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Content
List of ContributorsForewordPrefaceContents of Previous VolumesTheories of Wear and Their Significance for Engineering Practice I. Introduction II. Wear in Vacuum or Inert Gases III. Wear in Air without Deliberate Lubrication IV. Wear of Lubricated Systems V. Elastohydrodynamic Conditions VI. General Remarks ReferencesThe Wear of Polymers I. Introduction II. Materials III. Friction IV. Wear Testing V. Abrasion VI. Fatigue VII. Adhesion VIII. Composites IX. Lubrication X. Applications ReferencesThe Wear of Carbons and Graphites I. Introduction II. Materials III. Friction IV. Wear V. Electrical Contacts VI. Bearings and Seals VII. Carbon-Carbon Combinations VIII. Summary References Scuffing I. Introduction II. Definitions III. Physical Manifestations of Scuffing IV. The Practical Importance of Scuffing V. Factors Affecting Scuffing VI. Empirical Criteria for Scuffing VII. Screening Tests for Scuffing VIII. The Mechanism of Scuffing ReferenceAbrasive Wear I. Introduction II. Validity of a Simple Model of Abrasive Wear III. Mechanisms of Material Removal IV. Variables Influencing Abrasive Particle Contact V. Concluding Remarks References Fretting I. Introduction II. Effect of Variables III. Fretting in Aqueous Electrolytes IV. Mechanism of Fretting Wear V. Preventive Measures VI. Conclusion References Erosion Caused by Impact of Solid Particles I. Introduction II. Types of Erosion Test III. Aerodynamic Effects IV. The Impacting Particles V. The Impact Parameters VI. The Target Material VII. Mechanisms of Erosion List of Symbols References Rolling Contact Fatigue I. Introduction II. Theoretical Considerations III. Material Requirements for Rolling Elements IV. Effect of Load and Geometry on Rolling Contact Fatigue V. Effect of Material Properties on Rolling Contact Fatigue VI. Effect of the Lubricant on Rolling Contact Fatigue VII. Effect of Environment VIII. Effect of Temperature IX. Mechanism of Failure X. Failure Detection References Wear Resistance of Metals I . Introduction II. Wear in Industry III. Surface Treatments Used to Reduce Wear References Wear of Metal-Cutting Tool I. Introduction II. Metal-Cutting Operations III. Descriptive Treatment of Tool Wear Phenomena IV. Conditions at the Tool/Work Interface V. Cutting Tool Wear VI. Interfacial Layers VII. Other Tool Materials References Index
