Photoelasticity for designers /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Heywood, Roland Bryon
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; New York : Pergamon Press, [1969]
Edición:[1st ed.].
Colección:International series of monographs in mechanical engineering ; 2.
Temas:
Photoelasticity.
Engineering design.
Conception technique.
TECHNOLOGY & ENGINEERING > Engineering (General)
TECHNOLOGY & ENGINEERING > Reference.
Engineering design
Photoelasticity
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Photoelasticity for Designers
  • Copyright Page
  • Table of Contents
  • Dedication
  • Preface
  • Definitions
  • List of Symbols
  • Conversion Table
  • Multiplying Factors
  • CHAPTER 1. Behaviour of Light in Plane Polariscope
  • 1.1. Nature of light
  • 1.2. Polaroid polarizers
  • 1.3. Polarization by reflection or refraction
  • 1.4. NicoI prism
  • 1.5. Simple polariscope
  • 1.6. Determination of polarization axis
  • 1.7. Effect of stressed transparent model in plane polariscope
  • 1.8. Stress- and strain-optical coefficients expressed in terms of relative retardation1.9. Derivation of stress-optical coefficient
  • 1.10. Fringe-stress and fringe-strain coefficients expressed interms of the fringe order
  • 1.11. The Brewster unit
  • 1.12. Three-dimensional effects
  • 1.13. Summary of photoelastic effect
  • 1.14. Effect of plastic strain
  • 1.15. Comparison of fringe-stress and strain coefficients
  • 1.16. Analysis by light vectors
  • 1.17. Intensity of light emerging from polariscope
  • 1.18. Photoelastic effect using white light
  • 1.19. Isoclinics1.20. Lines of principal stress
  • CHAPTER 2. Behaviour of Light in Circular Polariscope
  • 2.1. Circularly polarized light
  • 2.2. Polariscope arrangements
  • 2.3. Features of the circular polariscope
  • 2.4. White light in circular polariscope
  • 2.5. �I"/4 plates
  • 2.6. Effect of a stressed model in circular polariscope
  • 2.7. Compensators
  • CHAPTER 3. Polariscopes
  • 3.1. Diffusion polariscope
  • 3.2. Lens polariscope
  • 3.3. Parallel light
  • 3.4. Length of polariscope
  • 3.5. Two lenses in system
  • 3.6. Comparison of diffusion and lens-type polariscopes3.7. Reflection polariscopes
  • 3.8. Examination of fringes
  • 3.9. Quality of lenses for polariscopes
  • 3.10. Light source
  • 3.11. Photography
  • 3.12. Camera
  • CHAPTER 4. Photoelastic Materials
  • 4.1. History
  • 4.2. Measurement of fringe-stress and strain coefficients
  • 4.3. Values of the fringe-stress and strain coefficients
  • 4.4. Mechanical properties
  • 4.5. Choice of material
  • 4.6. Materials available
  • 4.7. Epoxy resins
  • 4.8. Catalin 61 893 (formerly Bakelite BT 61 893)
  • 4.9. Catalin 800 and Marblette4.10. Columbia resin CR 39
  • 4.11. Celluloid
  • 4.12. Gelatin
  • 4.13. Polycarbonate
  • 4.14. Urethane rubber
  • 4.15. Temperature effects on the fringe-stress and strain coefficients
  • 4.16. Effect of creep on the fringe-stress and strain coefficients
  • 4.17. Photoelastic dispersion
  • 4.18. Time-edge effects
  • 4.19. Effect of various liquids on plastics
  • 4.20. Distribution of surface stresses in notched parts
  • 4.21. Liquids causing damage to plastics
  • 4.22. Annealing

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