Strength of materials and structures /

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Engineers need to be familiar with the fundamental principles and concepts in materials and structures in order to be able to design structurers to resist failures. For 4 decades, this book has provided engineers with these fundamentals. Thoroughly updated, the book has been expanded to cover everyt...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Case, John, 1888-1969
Otros Autores: Chilver, Henry Chilver, Baron, 1926-2012, Ross, C. T. F., 1935-
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Oxford ; New York : Butterworth-Heinemann, ©1999.
Edición:4th ed.
Temas:
Strength of materials.
Materials > Analysis.
Résistance des matériaux.
Matériaux > Analyse.
strength of materials.
TECHNOLOGY & ENGINEERING > Material Science.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Strength of Materials and Structures; Copyright Page; Contents; Preface; Acknowledgements; Principal notation; Note on SI units; Introduction; 1.1 Introduction; 1.2 Trigonometrical definitions; 1.3 Vectors and scalars; 1.4 Newton's laws of motion; 1.5 Elementary statics; 1.6 Couples; 1.7 Equilibrium; Chapter 1. Tension and compression: direct stresses; 1.1 Introduction; 1.2 Stretching of a steel wire; 1.3 Tensile and compressive stresses; 1.4 Tensile and compressive strains; 1.5 Stress-strain curves for brittle materials; 1.6 Ductile materials; 1.7 Proof stresses.
  • 1.8 Ductility measurement1.9 Working stresses; 1.10 Load factors; 1.11 Lateral strains due to direct stresses; 1.12 Strength properties of some engineering materials; 1.13 Weight and stiffness economy of materials; 1.14 Strain energy and work done in the tensile test; 1.15 Initial stresses; 1.16 Composite bars in tension or compression; 1.17 Temperature stresses; 1.18 Temperature stresses in composite bars; 1.19 Circular ring under radial pressure; 1.20 Creep of materials under sustained stresses; 1.21 Fatigue under repeated stresses; Chapter 2. Pin-jointed frames or trusses; 2.1 Introduction.
  • 2.2 Statically determinate pin-jointed frames2.3 The method of joints; 2.4 The method of sections; 2.5 A statically indeterminate problem; Chapter 3. Shearing stress; 3.1 Introduction; 3.2 Measurement of shearing stress; 3.3 Complementary shearing stress; 3.4 Shearing strain; 3.5 Strain energy due to shearing actions; Chapter 4. Joints and connections; 4.1 Importance of connections; 4.2 Modes of failure of simple bolted and riveted joints; 4.3 Efficiency of a connection; 4.4 Group-bolted and -riveted joints; 4.5 Eccentric loading of bolted and riveted connections; 4.6 Welded connections.
  • 4.7 Welded connections under bending actionsChapter 5. Analysis of stress and strain; 5.1 Introduction; 5.2 Shearing stresses in a tensile test specimen; 5.3 Strain figures in mild steel; Lüder's lines; 5.4 Failure of materials in compression; 5.5 General two-dimensional stress system; 5.6 Stresses on an inclined plane; 5.7 Values of the principal stresses; 5.8 Maximum shearing stress; 5.9 Mohr's circle of stress; 5.10 Strains in an inclined direction; 5.11 Mohr's circle of strain; 5.12 Elastic stress-strain relations; 5.13 Principal stresses and strains; 5.14 Relation between E, G and v.
  • 5.15 Strain 'rosettes'5.16 Strain energy for a two-dimensional stress system; 5.17 Three-dimensional stress systems; 5.18 Volumetric strain in a material under hydrostatic pressure; 5.19 Strain energy of distortion; 5.20 Isotropic, orthotropic and anisotropic; 5.21 Fibre composites; 5.22 In-plane equations for a symmetric laminate or composite; 5.23 Equivalent elastic constants for problems involving bending and twisting; 5.24 Yielding of ductile materials under combined stresses; 5.25 Elastic breakdown and failure of brittle material; 5.26 Failure of composites.

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