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Wear of metals /
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford ; New York :
Pergamon Press,
1976.
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| Edición: | 1st ed. |
| Colección: | Pergamon international library of science, technology, engineering, and social studies.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Wear of Metals; Copyright Page; Dedication; Table of Contents; Preface; CHAPTER 1. INTRODUCTION; 1.1. Adhesion; 1.2. Contaminants; 1.3. Types of Wear; 1.4. Friction and Wear Experiments; 1.5. Metallurgical Examination; 1.6. Application of Wear Results; CHAPTER 2. SURFACE TOPOGRAPHY; 2.1. Asperities; 2.2. Measurement of Waviness; 2.3. Asperity Angle; 2.4. Measure of Roughness; 2.5. Fullness or Emptiness; 2.6. Abbot's Bearing curve; CHAPTER 3. CONTACT OF SOLIDS; 3.1. Single Contact; 3.2. Multiple Contact; 3.3. An Idealised Rough Surface; 3.4. A Realistic Rough Surface.
- 3.5. Plastic Contact3.6. Effect of Work Hardening; CHAPTER 4. FRICTION; 4.1. Area of Contact; 4.2. Adhesion of Junctions; 4.3. Mechanism of Friction; 4.4. Amontons ' Laws; CHAPTER 5. EFFECT OF SLIDING; 5.1. Junction Growth; 5.2. Work of Adhesion; 5.3. Kinetic Friction; 5.4. Stick-Slip; 5.5. Thermal Effect; 5.6. Oxide Film; 5.7. Sliding Between Brittle Surfaces; 5.8. Effect of Contaminants on Friction; CHAPTER 6. MOLECULAR THEORY OF FRICTION AND WEAR; 6.1. Dry Friction; 6.2. Wear; CHAPTER 7. RUNNING-IN WEAR; 7.1. Wear Curve; 7.2, Mechanism; 7.3. Law of Running-In Wear; CHAPTER 8. ADHESIVE WEAR.
- 8.1. Rate of Wear8.2. Junction Interaction; 8.2. Law of Adhesive Wear; 8.4. Asperity Angle; 8.5. Fatigue Mechanism; CHAPTER 9. OXIDATIONAL HYPOTHESIS OF WEAR; 9.1. Oxidational Hypothesis; 9.2. Comment on Equation 9.7.; CHAPTER 10. SURFACE CONTAMINANTS; 10.1. Fractional Film Defect; 10.2. Heat of Adsorption Theory; 10.2. Importance of E.; 10.4. A Simplified Law.; CHAPTER 11. ABRASIVE WEAR; 11,1, Abrasive Wear Coefficient; 11,2, Abrasive Wear Resistance.; 11.3, Abrasives at the Interface; 11,4, Stored Energy.; CHAPTER 12. WEAR DEBRIS; 12,1, Energy Consideration.; 12,2, Debris Size.
- 12.3, Effect of LoadCHAPTER 13. METAL TRANSFER; 13,1, Steel on Brass; 13,2, Steel on Steel; 13,3, Amount of Transfer; CHAPTER 14. SURFACE AND SUBSURFACE; 14,1, Surface Layers and Sublayers; 14.2. Friction; 14,3, Surface Fatigue; 14.4. Plasticity Index; CHAPTER 15. TEMPERATURE AND SPEED; 15.1. Temperature; 15.2. Speed; CHAPTRE 16. SOLUBILITY; 16.1. Solubility; CHAPTER 17. CRYSTAL STRUCTURE; 17.1. Adhesion Coefficient; 17.2. Experiment with Cobalt; 17.3. Rare Earth Materials; 17.4, Change of Texture; CHAPTER 18. ROLLING RESISTANCE; 18.1. Principles of Rolling Motion; 18.2. Slip.
- 18.3. Rolling in the Plastic Range18.4. Rolling in the Elastic State; 18.5. Shake-Down-Limit; CHAPTER 19. WEAR UNDER ROLLING CONTACT; 19.1. Slip Area; 19.2. Wear; 19.3. A Law of Rolling Wear; CHAPTER 20. POLYMERS; 20.1. Friction and Wear; 20.2. A General Law of Friction; 20.3. Rubber; CHAPTER 21. FRETTING; 21.1. Four Stages of Fretting; 21.2. Measurement of Pit Depth; 21.3. Load and Temperature; 21.4. Humidity; CHAPTER 22. EXAMPLES OF TRIBOLOGICAL COMPONENTS; 22.1. Gears; 22.2. Bearings; 22.3. Piston Rings; 22.4. Wear under Impact Condition; CHAPTER 23. WEAR OF BRASS.