Elements of friction theory and nanotribology /

Combining the classical theories of contact mechanics and lubrication with the study of friction on the nanometer range, this multi-scale book for researchers and students alike guides the reader deftly through the mechanisms governing friction processes, based on state-of-the-art models and experim...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Gnecco, Enrico (Autor), Meyer, E. (Ernst), 1962- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge : Cambridge University Press, 2015.
Temas:
Tribology.
Friction.
Elasticity.
Tribologie (Technologie)
Élasticité.
TECHNOLOGY & ENGINEERING > Mechanical.
Elasticity
Friction
Tribology
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Halftitle Page; Title Page; Copyright Page; Contents; Preface; 1 Introduction; 1.1 Historical notes; 2 Dry friction and damped oscillators; 2.1 Amontons' law; 2.2 Applications to representative mechanical systems; 2.3 Viscous friction; Part I Elastic Contacts; 3 Elements of the theory of elasticity; 3.1 Strain; 3.2 Stress; 3.3 Isotropic elastic materials; 3.4 Equilibrium of elastic bodies; 3.5 Elastic waves; 4 Normal contacts; 4.1 Pressure on an elastic half-space; 4.2 Indentation of an elastic half-space; 4.3 The Hertz theory; 4.4 Beyond the Hertz theory.
  • 4.5 Influence of friction on normal contact5 Tangential contacts; 5.1 Traction on an elastic half-space; 5.2 Partial slip; 5.3 Sliding of elastic objects; 5.4 Influence of oscillating forces; 6 Elastic rolling; 6.1 Steady elastic rolling; 6.2 Three-dimensional rolling; 6.3 Sphere in a groove; 6.4 Tire mechanics; 7 Beams, plates and layered materials; 7.1 Elastic deformation of beams; 7.2 Plate theory; 7.3 Elastic instabilities; 7.4 Shells; 7.5 Indentation of elastic plates; 7.6 Indentation of thin elastic layers; Part II Advanced Contact Mechanics; 8 Rough contacts; 8.1 Surface roughness.
  • 8.2 Early models of rough contacts8.3 The Persson theory; 8.4 Advanced concepts in the Persson theory; 8.5 Contact of wavy surfaces; 9 Viscoelastic contacts; 9.1 Stress-strain relation; 9.2 Constitutive models; 9.3 Viscoelastic indentation; 9.4 Rubber friction; 9.5 Rolling on viscoelastic bodies; 10 Adhesive contacts; 10.1 The Johnson-Kendall-Roberts model; 10.2 The Derjaguin-Muller-Toporov model; 10.3 The Maugis-Dugdale model; 10.4 The Persson theory with adhesion; 10.5 Adhesion in biological systems; 11 Thermal and electric effects; 11.1 Thermal effects in polymers; 11.2 Flash temperature.
  • 11.3 Heat transfer between rough surfaces11.4 Electric contact resistance; 12 Plastic contacts; 12.1 Plasticity; 12.2 Criteria of yielding; 12.3 Plastic flow; 12.4 Plastic indentation; 12.5 Compression and traction of a plastic wedge; 12.6 Hardness; 12.7 Plowing; 12.8 Elastic-plastic indentation; 12.9 Rolling on plastically deformed bodies; 12.10 Rough plastic contacts; 12.11 Plasticity of geomaterials; 13 Fracture; 13.1 Fracture modes; 13.2 The Griffith criterion; 13.3 Dynamic fracture; 13.4 Fracture in rubber-like materials; 14 Stick-slip; 14.1 Stick-slip; 14.2 Contact ageing.
  • 14.3 Lubricated friction14.4 The Burridge-Knopoff model; 14.5 Plastic flow; 14.6 Earthquakes; Part III Nanotribology; 15 Atomic-scale stick-slip; 15.1 The Prandtl-Tomlinson model; 15.2 Energy barrier; 15.3 Thermal effects; 15.4 Long jumps; 15.5 Dynamic superlubricity; 15.6 Constant driving force; 15.7 The Frenkel-Kontorova model; 15.8 Electronic and phononic friction; 16 Atomic-scale stick-slip in two dimensions; 16.1 The Prandtl-Tomlinson model in two dimensions; 16.2 Structural lubricity; 16.3 Sliding of adsorbate layers; 17 Instrumental and computational methods in nanotribology.

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