Contact mechanics /

This treatise is concerned with the stresses and deformation of solid bodies in contact with each other, along curved surfaces which touch initially at a point or along a line. Examples are a railway wheel and rail, or a pair of gear wheel teeth. Professor Johnson first reviews the development of th...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Johnson, K. L. (Kenneth Langstreth), 1925-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Cambridge [Cambridgeshire] ; New York : Cambridge University Press, [1985]
Temas:
Mechanics, Applied.
Surfaces (Technology)
Rolling contact.
Contact mechanics.
Mécanique appliquée.
Surfaces (Technologie)
Contact de roulement.
Mécanique du contact.
Contact mechanics
Mechanics, Applied
Rolling contact
Deformation
Festkörper
Kontakt > Reibung
Engenharia mecanica.
Déformations (mécanique)
Surfaces (technologie)
Tribologie (technologie)
Frottement.
Solids > Deformation
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover
  • Half Title
  • Title Page
  • Copyright
  • Contents
  • Preface
  • 1 Motion and forces at a point of contact
  • 1.1 Frame of reference
  • 1.2 Relative motion of the surfaces
  • sliding, rolling and spin
  • 1.3 Forces transmitted at a point of contact
  • 1.4 Surface tractions
  • 1.5 Examples
  • (1) involute spur gears
  • (2) angular contact ball bearings
  • 2 Line loading of an elastic half-space
  • 2.1 The elastic half-space
  • 2.2 Concentrated normal force
  • 2.3 Concentrated tangential force
  • 2.4 Distributed normal and tangential tractions
  • 2.5 Uniform distributions of traction
  • 2.6 Triangular distributions of traction
  • 2.7 Displacements specified in the loaded region
  • 2.8 Indentation by a rigid flat punch
  • 2.9 Traction parallel to the y-axis
  • 3 Point loading of an elastic half-space
  • 3.1 Potential functions of Boussinesq and Cerruti
  • 3.2 Concentrated normal force
  • 3.3 Pressure applied to a polygonal region
  • 3.4 Pressure applied to a circular region
  • 3.5 Pressure applied to an elliptical region
  • 3.6 Concentrated tangential force
  • 3.7 Uni-directional tangential tractions on elliptical and circular regions
  • 3.8 Axi-symmetrical tractions
  • 3.9 Torsional loading
  • 4 Normal contact of elastic solids
  • Hertz theory
  • 4.1 Geometry of smooth, non-conforming surfaces in contact
  • 4.2 Hertz theory of elastic contact
  • 4.3 Elastic foundation model
  • 5 Non-Hertzian normal contact of elastic bodies
  • 5.1 Stress conditions at the edge of contact
  • 5.2 Blunt wedges and cones
  • 5.3 Conforming surfaces
  • 5.4 Influence of interfacial friction
  • 5.5 Adhesion between elastic bodies
  • 5.6 Contact of cylindrical bodies
  • 5.7 Anisotropic and inhomogeneous materials
  • 5.8 Layered solids, plates and shells
  • 5.9 Numerical methods
  • 6 Normal contact of inelastic solids
  • 6.1 Onset of plastic yield.
  • 6.2 Contact of rigid-perfectly-plastic solids
  • 6.3 Elastic-plastic indentation
  • 6.4 Unloading of a plastic indentation, cyclic loading and residual stresses
  • 6.5 Linear viscoelastic materials
  • 6.6 Nonlinear elasticity and creep
  • 7 Tangential loading and sliding contact
  • 7.1 Sliding of non-conforming elastic bodies
  • 7.2 Incipient sliding of elastic bodies
  • 7.3 Simultaneous variation of normal and tangential forces
  • 7.4 Oscillating forces
  • 7.5 Torsion of elastic spheres in contact
  • 7.6 Sliding of rigid-perfectly-plastic bodies
  • 8 Rolling contact of elastic bodies
  • 8.1 Micro-slip and creep
  • 8.2 Freely rolling bodies having dissimilar elastic properties
  • 8.3 Tractive rolling of elastic cylinders
  • 8.4 Rolling with traction and spin of three-dimensional bodies
  • 8.5 A ball rolling in a conforming groove
  • 8.6 Transient behaviour in rolling
  • 8.7 Elastic foundation model of rolling contact
  • 8.8 Pneumatic tyres
  • 9 Rolling contact of inelastic bodies
  • 9.1 Elastic hysteresis
  • 9.2 Elastic-plastic materials: shakedown
  • 9.3 Rolling of a rigid cylinder on a perfectly plastic half-space
  • 9.4 Rolling contact of viscoelastic bodies
  • 9.5 Rolling friction
  • 10 Calendering and lubrication
  • 10.1 An elastic strip between rollers
  • 10.2 Onset of plastic flow in a thin strip
  • 10.3 Plastic rolling of strip
  • 10.4 Lubrication of rollers
  • 11 Dynamic effects and impact
  • 11.1 Stress waves in solids
  • 11.2 Dynamic loading of an elastic half-space
  • 11.3 Contact resonance
  • 11.4 Elastic impact
  • 11.5 Inelastic impact
  • 11.6 Travelling loads
  • high speed sliding and rolling
  • 12 Thermoelastic contact
  • 12.1 Introduction
  • 12.2 Temperature distributions in a conducting half-space
  • 12.3 Steady thermoelastic distortion of a half-space
  • 12.4 Contact between bodies at different temperatures.
  • 12.5 Frictional heating and thermoelastic instability
  • 13 Rough surfaces
  • 13.1 Real and apparent contact
  • 13.2 Contact of regular wavy surfaces
  • 13.3 Characteristics of random rough surfaces
  • 13.4 Contact of nominally flat rough surfaces
  • 13.5 Elastic contact of rough curved surfaces
  • Appendices
  • 1 Cauchy Principal Values of some useful integrals
  • 2 Geometry of smooth non-conforming surfaces in contact
  • 3 Summary of Hertz elastic contact stress formulae
  • 4 Subsurface stresses in line contact
  • 5 Linear creep coefficients
  • References and author index
  • Subject index.

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