Theory of elasticity and stress concentration /

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"Theory of Elasticity and Stress Concentration comprehensively covers elasticity and stress concentration and demonstrates how to apply the theory to practical engineering problems. It presents a new approach to the topic without the need for complicated mathematics and the principles and meani...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Murakami, Y. (Yukitaka), 1943- (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Chichester, West Sussex, United Kingdom : John Wiley & Sons, Inc., 2017.
Temas:
Elasticity.
Stress concentration.
Élasticité.
Concentration de contraintes.
Elasticity
Stress concentration
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Title Page ; Copyright; Contents; Preface; Preface for Part I: Theory of Elasticity ; Part I Nomenclature ; Preface for Part II: Stress Concentration ; Part II Nomenclature ; Acknowledgments; Part I Theory of Elasticity ; Chapter 1 Stress ; 1.1 Stress at the Surface of a Body; 1.1.1 Normal Stress; 1.1.2 Shear Stress; 1.2 Stress in the Interior of a Body; 1.3 Two Dimensional Stress, Three Dimensional Stress and Stress Transformation; 1.3.1 Normal Stress; 1.3.2 Shear Stress; 1.3.3 Stress in an Arbitrary Direction; 1.3.4 Principal Stresses; 1.3.5 Principal Shear Stresses; Problems of Chapter 1
  • Chapter 2 Strain 2.1 Strains in Two Dimensional Problems; 2.2 Strains in Three Dimensional Problems; 2.3 Strain in an Arbitrary Direction; 2.3.1 Two Dimensional Case; 2.3.2 Three Dimensional Case; 2.4 Principal Strains; 2.5 Conditions of Compatibility; Problems of Chapter 2 ; Reference; Chapter 3 Relationship between Stresses and Strains: Generalized Hookeś Law ; Problems of Chapter 3; Chapter 4 Equilibrium Equations ; Problems of Chapter 4; Chapter 5 Saint Venantś Principle and Boundary Conditions ; 5.1 Saint Venantś Principle; 5.2 Boundary Conditions; 5.2.1 Stress Boundary Conditions
  • 5.2.2 Displacement Boundary Conditions5.2.3 Mixed Boundary Conditions; Problems of Chapter 5 ; Chapter 6 Two Dimensional Problems ; 6.1 Plane Stress and Plane Strain; 6.1.1 Plane Stress; 6.1.2 Plane Strain; 6.2 Basic Conditions for Exact Solutions: Nature of Solutions; 6.3 Airyś Stress Function; 6.4 Hollow Cylinder; 6.5 Stress Concentration at a Circular Hole; 6.6 Stress Concentration at an Elliptical Hole; 6.7 Stress Concentration at a Hole in a Finite Width Plate; 6.8 Stress Concentration at a Crack; 6.9 Stress Field due to a Point Force Applied at the Edge of a Semi-Infinite Plate
  • 6.10 Circular Disk Subjected to Concentrated ForceProblems of Chapter 6 ; Appendix of Chapter 6; References; Chapter 7 Torsion of a Bar with Uniform Section ; 7.1 Torsion of Cylindrical Bars; 7.2 Torsion of Bars Having Thin Closed Section; 7.3 Saint Venantś Torsion Problems; 7.4 Stress Function in Torsion; 7.4.1 Equilibrium Condition; 7.4.2 Compatibility Equation; 7.4.3 Boundary Conditions; 7.5 Membrane Analogy: Solution of Torsion Problems by Using the Deformation of Pressurized Membrane; 7.6 Torsion of Bars Having a Thin Unclosed Cross Section
  • 7.7 Comparison of Torsional Rigidity between a Bar with an Open Section and a Bar with a Closed SectionProblems of Chapter 7 ; Reference; Chapter 8 Energy Principles ; 8.1 Strain Energy; 8.2 Uniqueness of the Solutions of Elasticity Problems; 8.3 Principle of Virtual Work; 8.4 Principle of Minimum Potential Energy; 8.5 Castiglianoś Theorem; 8.6 The Reciprocal Theorem; Problems of Chapter 8; Reference; Chapter 9 Finite Element Method ; 9.1 FEM for One Dimensional Problems; 9.2 Analysis of Plane Stress Problems by the Finite Element Method

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