Friction and Wear in Metals
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| Autore: |
Al-Samarai Riyadh A
|
| Titolo: |
Friction and Wear in Metals
|
| Pubblicazione: | Singapore : , : Springer Singapore Pte. Limited, , 2024 |
| ©2024 | |
| Edizione: | 1st ed. |
| Descrizione fisica: | 1 online resource (343 pages) |
| Altri autori: |
Al-DouriYarub
|
| Nota di contenuto: | Intro -- Preface -- Contents -- 1 The Wear -- 1.1 Introduction -- 1.1.1 What Is Wear? -- 1.1.2 Development of Wear Studies -- 1.1.3 Factors Affecting Wear -- 1.2 Sliding Wear -- 1.2.1 Dry Sliding of Metals -- 1.2.2 Dry Sliding Wear of Polymers -- 1.3 Damage When Wear in Metal -- 1.4 Microstructural Changes Under the Wear Surface -- 1.5 Nature of Surface Layers -- 1.6 Solid Surfaces -- 1.6.1 Surface Marking Technology -- References -- 2 Wear Mechanisms/Models -- 2.1 Introduction -- 2.1.1 Plasticity Wear -- 2.2 Wear Mechanisms -- 2.3 Wear Modes -- 2.3.1 Adhesive Wear -- 2.3.2 Abrasive Wear -- 2.3.3 Erosive Wear -- 2.3.4 Contact Fatigue Wear -- 2.3.5 Tribocorrosion -- 2.4 Experiments on Friction and Wear -- 2.5 Metallurgical Expertise -- 2.6 Applying Overlay Results -- 2.7 Wear Maps -- References -- 3 Wear in Metals -- 3.1 Introduction -- 3.2 Mild Wear and Transition to Severe Wear -- 3.2.1 Mild Wear -- 3.2.2 Transition to Severe Wear -- 3.3 Steels -- 3.3.1 Sliding Wear -- 3.3.2 Wear by Fatigue -- 3.3.3 Wear of Granular Material -- 3.4 Cast Iron -- 3.4.1 Sliding Wear -- 3.4.2 Wear by Fatigue -- 3.4.3 Wear of Hard Particles -- 3.5 Copper Alloys -- 3.6 Wear of Aluminum-Silicon Alloys -- 3.6.1 Alloys of Aluminum and Titanium -- 3.7 Advanced Ceramics -- 3.7.1 Sliding Wear -- 3.7.2 Wear by Fatigue -- 3.7.3 Wear with Granular Material -- 3.8 Cemented Carbides -- 3.8.1 Sliding Wear -- 3.8.2 Wear by Granular Material -- 3.9 Diamond and Graphite -- 3.10 Polymers -- 3.10.1 Sliding Wear -- 3.10.2 Wear by Granular Material -- References -- 4 Graphite and Carbide Friction and Wear -- 4.1 Introduction -- 4.2 Graphite -- 4.3 Carbides -- 4.4 Wear of Brass -- 4.4.1 Wear Rate and Coefficient of Friction (COF) -- 4.5 Wear by Particles of Hard -- 4.5.1 Abrasive Wear of Engineering Materials -- 4.6 Fretting Wear of Metals -- 4.7 Metal Wear in Lubricated Contacts. |
| 4.8 Wear Transitions -- 4.9 Chemical Effects -- 4.10 Lubricated Wear -- References -- 5 Surface Protection from Wear Through Coating -- 5.1 General Aspects of Surface Functional Modifications -- 5.2 Microstructural Modification Treatments -- 5.2.1 Treatments of Mechanical -- 5.2.2 Heat Treatments of Surface -- 5.3 Treatments of Thermochemical Diffusion -- 5.3.1 Carburizing -- 5.3.2 Nitriding -- 5.3.3 Other Treatments -- 5.4 Coatings of Conversion -- 5.4.1 Phosphating -- 5.4.2 Anodizing -- 5.5 Coatings of Surface -- 5.5.1 Plating of Metallic -- 5.5.2 Coatings of Thin -- 5.5.3 Spraying Flames Using Wire or Rod -- 5.5.4 Flame Splashing After Detonation -- 5.6 Utilizing Thermal Spray Technology to Prevent Against Wear -- 5.7 Design of Surface Coating -- 5.7.1 General Coating Design Principles -- 5.7.2 Choosing a Surface Plating Technique -- 5.8 Testing of Coating Performance -- 5.8.1 Structure and Appearance -- 5.8.2 Extra Performance Evaluations -- References -- 6 The Friction -- 6.1 Introduction -- 6.2 The Basics of Tribology -- 6.2.1 Contacting Surfaces -- 6.3 Friction of Metals, Polymer, and Ceramics -- 6.3.1 Metals -- 6.3.2 Ceramics -- 6.3.3 Polymers -- 6.3.4 Final Remarks -- 6.4 Phenomena of Friction and Transfer -- 6.5 Effect of Sliding Speed and Temperature -- 6.6 The Phenomenon of Stick-Slip -- 6.7 Wear Abrasion Contribution to Friction -- 6.8 Initial Roughness Effect -- 6.9 Friction of Rolling -- 6.10 Friction and Heating of Surface -- References -- 7 Lubrication and Lubricants -- 7.1 Introduction -- 7.2 Solid Lubricants -- 7.2.1 Graphite -- 7.2.2 Diamond-Like Coatings -- 7.2.3 Disulfide of Molybdenum -- 7.2.4 PTFE -- 7.2.5 Soft Metals -- 7.3 Lubricants of Liquid -- 7.3.1 Oils of Mineral and Synthetic -- 7.3.2 Greases -- 7.3.3 Lubricating Fluid Film -- 7.4 Scuffing and Boundary Lubrication -- 7.5 Mixed Lubrication. | |
| 7.6 In Case of Large Plastic Deformations, Lubricated Friction -- 7.7 Lubricant Selection -- References -- 8 Surface Topography -- 8.1 Introduction -- 8.2 Properties of the Surface Layers -- 8.3 Surface Topography Measurement -- 8.4 Measurement of Surface Roughness -- 8.4.1 Measurements Quantitative for Surface Topography -- 8.4.2 Engineering Surface Topography -- 8.5 Surface Contact -- 8.5.1 Surface Wavelength Bandwidth -- 8.6 Numerical Parameters for Topographic Characterization -- 8.6.1 Sampling Conditions -- 8.7 Field Parameters -- 8.8 S-Parameter Set -- 8.8.1 Parameters for Amplitude -- 8.9 Solid Surfaces -- 8.10 General Aspects of Surface Functional Modifications -- 8.11 Microstructural Modification by Treatments -- 8.11.1 Treatments of Mechanical -- 8.11.2 Heat Treatments of Surface -- References -- 9 Surface Engineering for Tribology -- 9.1 Introduction -- 9.2 Surface-Engineered Layer Delamination -- 9.3 Surface Modification of Component Without Changing Content -- 9.3.1 Transformation Hardening -- 9.3.2 Surface Melting -- 9.3.3 Surface Texturing -- 9.4 Surface Modification of Components Including Composition Changes -- 9.4.1 Surface Modification via Diffusion Treatment of Solid Solution and Sedimentation -- 9.5 Materials Selected for Wear Resistance -- 9.6 Formulas for Different Friction Materials -- 9.6.1 Automotive Applications -- 9.6.2 Materials with Organic Ties -- 9.6.3 Formulas -- 9.6.4 Semi-metallic Formulas -- 9.6.5 Truck (CV) Formulas -- 9.6.6 Low Metal -- 9.6.7 Low Steel Compositions -- 9.6.8 Sintered Materials -- 9.7 Aircraft -- 9.8 Coated Surface Tribomechanics -- 9.8.1 Scales of Tribology -- References -- 10 Machine Failure and Its Prevention by Tribology -- 10.1 Introduction -- 10.2 Tribological Principles and Maintenance Procedures -- 10.2.1 An Overview of Maintenance Practices Development -- 10.2.2 Principles of Tribological. | |
| 10.2.3 Maintenance and Tribology -- 10.3 Diagnoses of Failure -- 10.3.1 Morphology and Analysis of Failure -- 10.3.2 Failure Management: Two Brief Case Studies -- 10.3.3 Bearing for a Sand Dredger -- 10.3.4 Comment -- 10.4 Condition-Based Upkeep -- 10.5 Analysis of Wear and Debris -- 10.5.1 Wear Some Experimental Findings and Their Application: Wear Modes and Related Debris Attributes -- 10.5.2 Summary of Test Results -- 10.5.3 Classification and Use of Wear Particles -- 10.6 Closure -- 10.7 Artificial Intelligence Perspective for Tribology -- 10.7.1 Introduction -- 10.7.2 Application Fields in Tribology -- 10.8 Future Perspectives for Research and Final Thoughts -- References -- Bibliography -- Subject Index. | |
| Titolo autorizzato: | Friction and Wear in Metals |
| ISBN: | 981-9711-68-1 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910847070003321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |
Serie:
Materials Horizons: from Nature to Nanomaterials Series