Mechanical science for technicians. Volume 2 /

Mechanical Science for Technicians, Volume 2 introduces the basic principles of stress-and-strain analysis. The book is comprised of 10 chapters that cover various aspects of mechanical sciences.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: McDonagh, I. (Ian)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : E. Arnold, [1988]
Temas:
Mechanics, Applied.
M�ecanique appliqu�ee.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Mechanics, Applied
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Mechanical Science for Technicians
  • Copyright Page
  • Table of Contents
  • Preface
  • Chapter 1. Principles of stress-and-strain analysis
  • 1.1 Classification of materials
  • 1.2 Relationship between stress and strain
  • 1.3 Volumetric strain
  • 1.4 Relationship between linear strain and volumetric strain
  • 1.5 Bulk modulus of elasticity
  • 1.6 Relationship between the elastic constants E, G, K, and v
  • 1.7 Stresses in thin-walled vessels
  • 1.8 Effect of internal pressure on the volume of thin-walled vessels
  • 1.9 Complementary shear stress1.10 Shear stress in beams due to bending
  • 1.11 Complex stress
  • 1.12 Normal and shear stresses on any plane in an element subject to normal stresses only
  • 1.13 Normal and shear stresses on any plane in an element subject to shear stress only
  • 1.14 Normal and shear stresses on any plane in a general two-dimensional stress system
  • 1.15 Principal planes and principal stresses
  • 1.16 Mohr's circle for stress
  • 1.17 Trigonometric identities (proof)
  • Exercises on chapter 1
  • Chapter 2. Second moments of area of beam sections
  • 2.1 Second moment of area2.2 'I' for common sections
  • 2.3 The parallel-axis theorem
  • Exercises on chapter 2
  • Chapter 3. Combined direct and bending stresses
  • 3.1 Direct stress
  • 3.2 Bending stress
  • 3.3 Values of I and ymax.for common sections
  • 3.4 Combined bending and direct stress
  • 3.5 Core or 'kern' of section
  • 3.6 The position of the neutral axis
  • 3.7 Worked examples
  • Exercises on chapter 3
  • Chapter 4. Shear force and bending moment
  • 4.1 Introduction
  • 4.2 Shear force
  • 4.3 Bending moment
  • 4.4 Relationship between loading, shear force, and bending moment4.5 Application of the mathematical relationship between shear force and bending moment to solution of problems
  • Exercises on chapter 4
  • Chapter 5. Slope and deflection of beams
  • 5.1 Introduction
  • 5.2 Elastic equation for bending
  • 5.3 Sign convention and boundary conditions
  • 5.4 Applications of the elastic equation for bending
  • 5.5 Principle of superposition
  • 5.6 Macaulay's method
  • Exercises on chapter 5
  • Chapter 6. Belt friction
  • 6.1 Power transmission by belt drive
  • 6.2 Ratio of belt tensions6.3 Maximum power transmitted by a belt
  • 6.4 Vee-belt drives
  • 6.5 Initial tension in a belt
  • Exercises on chapter 6
  • Chapter 7. Velocity diagrams
  • 7.1 Relative velocities of points on a rigid bar rotating about one end
  • 7.2 Relative velocities of points on a rigid bar having plane motion
  • 7.3 Relative velocities of points in a slider-crank mechanism
  • 7.4 Relative velocities of points in a quadric cycle chain
  • 7.5 Relative velocities of points in combinations of quadric cycle chains and slider-crank mechanisms

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