Handbook of friction materials and their applications /

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In the past few decades, friction material engineering has become more sophisticated with many tests and techniques to investigate the properties of the materials and their counterparts before, during and after friction occurred. There has not been too much information available on the different raw...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Dante, Roberto C., 1966- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge : Woodhead Publishing, 2016.
Colección:Woodhead Publishing in materials.
Temas:
Friction materials.
Matériaux de frottement.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Friction materials
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Handbook of Friction Materials and their Applications; Copyright; Contents; Dedication; Biography; Preface; Chapter 1: Friction materials: Friction for brakes; References; Chapter 2: Tribology of friction materials; 2.1 Introduction; 2.2 Friction force components; 2.2.1 Deformation forces; 2.2.2 Adhesion forces; 2.2.3 Friction and normal force; 2.3 Interface structure; 2.4 Wear of friction materials; 2.4.1 Tribofilm and wear behavior; References; Chapter 3: Types of friction material formulas; 3.1 Automotive applications; 3.2 Organic bound materials; 3.2.1 Formulas
  • 3.2.2 Semimetallic formulas3.2.3 Truck (CV) formulas; 3.2.4 Low metal; 3.2.5 Low steel formulas; 3.2.6 Ceramic formulas; 3.3 Carbon-ceramic rotors and friction materials; 3.3.1 Mechanical and friction performances of C /C-SiC; 3.4 Railway; 3.4.1 Sintered materials; 3.5 Aircraft; 3.5.1 Carbon-carbon materials; References; Chapter 4: Production processes for organic brake pads; 4.1 Introduction: Types of processes; 4.2 Blending; 4.3 Positive molding; 4.4 IR curing of friction materials; 4.5 Effect of production parameters on the material performances; References
  • Chapter 5: Noise and vibration5.1 Introduction; 5.2 Types of noise in disk brakes; 5.3 Squeal onset; 5.4 Resonances; 5.5 Noise and vibration damping; References; Chapter 6: Metal sulfides; 6.1 Introduction; 6.2 Tin sulfide; 6.3 Triboxidation of metal sulfides; 6.4 Sb2 S3: A paradigm for all metal sulfides in brake applications; 6.5 Synergy between sulfides and abrasives; References; Chapter 7: Carbon materials; 7.1 Introduction; 7.2 Natural graphite; 7.3 Amorphous graphite; 7.4 Natural flake graphite; 7.5 Vein graphite; 7.6 Synthetic graphite; 7.7 Coke
  • 7.8 Friction behavior of carbon materialsReferences; Chapter 8: Abrasives, ceramic, and inorganic materials; 8.1 Introduction; 8.2 Aluminum oxide; 8.3 Zirconium silicate and garnets; 8.4 Magnesium oxide; 8.5 Calcium carbonate; 8.6 Titanates; 8.7 Silicon carbide; 8.8 Clays and aluminosilicates; 8.9 Barium sulfate: Barite; 8.10 Abrasive wear; 8.10.1 Hardness effect; 8.10.2 Shape and size effects; 8.11 Nanopowders; References; Chapter 9: Metals; 9.1 Introduction; 9.2 Steel fibers and iron powders; 9.3 Copper and copper alloys
  • 9.4 Thermal diffusivity and other thermal properties9.5 Friction of metals in air; 9.5.1 Metal transfer; 9.6 Metals in railway brakes; References; Chapter 10: Binders and organic materials; 10.1 Introduction; 10.2 PF resins; 10.3 Cross-linking agents; 10.4 Cross-linking kinetics; 10.4.1 Fast-curing resins; 10.5 Thermal decomposition of PF; 10.6 Boron and phosphorus modified PF resins; 10.7 Molecular weight; 10.7.1 Statistics of molecular polymer weights; 10.7.2 The Flory distribution; 10.8 Phosphorus acid phase separation; 10.9 Friction powder

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