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The Resource Stress concentration at notches, Mykhaylo P. Savruk, Andrzej Kazberuk

Stress concentration at notches, Mykhaylo P. Savruk, Andrzej Kazberuk

Label
Stress concentration at notches
Title
Stress concentration at notches
Statement of responsibility
Mykhaylo P. Savruk, Andrzej Kazberuk
Creator
Contributor
Author
Subject
Language
eng
Summary
This book compiles solutions of linear theory of elasticity problems for isotropic and anisotropic bodies with sharp and rounded notches. It contains an overview of established and recent achievements, and presents the authors? original solutions in the field considered with extensive discussion. The volume demonstrates through numerous, useful examples the effectiveness of singular integral equations for obtaining exact solutions of boundary problems of the theory of elasticity for bodies with cracks and notches. Incorporating analytical and numerical solutions of the problems of stress concentrations in solid bodies with crack-like defects, this volume is ideal for scientists and PhD students dealing with the problems of theory of elasticity and fracture mechanics. Stands as a modern and extensive compendium of solutions to the problems of linear theory of elasticity of isotropic and anisotropic bodies with sharp and rounded notches; Adopts a highly reader-friendly layout of tables, charts, approximation formulas suitable for use in research and engineering practice; Presents stress concentration factors calculated for blunt notches as well as smooth transition to the stress intensity factors for sharp notches; Includes a comprehensive survey of established and recent achievements in the field
Member of
Cataloging source
N$T
http://library.link/vocab/creatorName
Savruk, Mykhaylo P
Dewey number
620.1126
Illustrations
illustrations
Index
no index present
LC call number
TA409
Literary form
non fiction
Nature of contents
  • dictionaries
  • bibliography
http://library.link/vocab/relatedWorkOrContributorName
Kazberuk, Andrzej
http://library.link/vocab/subjectName
  • Fracture mechanics
  • Stress concentration
  • Integral equations
Label
Stress concentration at notches, Mykhaylo P. Savruk, Andrzej Kazberuk
Instantiates
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Preface; Contents; Acronyms; 1 Method of Singular Integral Equations in Application to Problems of the Theory of Elasticity; 1.1 Basic Relationships of the Plane Theory of Elasticity; 1.1.1 Basic Equations; 1.1.2 Complex Representation of General Solution for Equations of Plane Theory of Elasticity; 1.2 System of Curvilinear Cracks in Elastic Plane; 1.2.1 Selected Information Concerning the Theory of Analytical Functions; 1.2.2 Single Curvilinear Crack; 1.2.3 System of Curvilinear Cracks; 1.3 System of Curvilinear Holes and Cracks in Elastic Body; 1.3.1 Multiply Connected Region with Holes
  • 1.3.2 Multiply Connected Region with Holes and Cracks1.4 Numerical Solution of Singular Integral Equations; 1.4.1 Quadrature Formulas; 1.4.2 Integral Equation on an Open Contour; 1.4.3 Integral Equation on a Closed Contour; References; 2 Stress Distribution in Elastic Plane with a Semi-infinite Notch; 2.1 Methods for Stress Analysis in Notched Bodies; 2.2 Eigensolutions of Elasticity Theory Plane Problem for Wedge; 2.2.1 Characteristic Equations; 2.2.2 Stress Intensity Factors in V-Notch Tip; 2.2.3 Constructing General Solution Using Eigenfunctions
  • 2.3 Semi-infinite Curvilinear Notches in Elastic Plane2.3.1 Parabolic Notch; 2.3.2 Hyperbolic Notch; 2.3.3 Curvilinear Notch of Special Shape; 2.4 Rounded V-Notch Under Symmetrical Loading; 2.4.1 Problem Definition and Reduction to Singular Integral Equation; 2.4.2 Symmetrical Stress Distribution in Plane with Rounded V-Notch; 2.5 Rounded V-Notch Under Mixed Loading; 2.5.1 Antisymmetric Stress Distribution; 2.5.2 Complex-Stressed State; References; 3 Elastic Plane with Semi-infinite Notch and Cracks; 3.1 Elastic Wedge with Edge Crack at Notch Tip
  • 3.1.1 Solutions Obtained Using Wiener -- Hopf Method3.1.2 Approximate Closed-Form Solution for Symmetrical Loading; 3.2 Edge Crack System in Semi-infinite Rounded V-Notch Tip; 3.2.1 Reduction of Problem to Singular Integral Equations; 3.2.2 Numerical Solution of Singular Integral Equations; 3.3 Symmetrical Edge Crack in Rounded V-Notch Tip; 3.4 Two Symmetrical Edge Cracks in Rounded V-Notch Tip; References; 4 Deformation Fracture Criterion for Bodies with Notches; 4.1 Fracture Criteria for Notched Solid Bodies; 4.2 Model of Plasticity Bands in Fracture Mechanics; 4.2.1 Plane Stress State
  • 4.2.2 Plane Strain State4.3 Infinite Wedge with Plasticity Bands; 4.3.1 Plane Stress State; 4.3.2 Plane Strain State; 4.4 Plasticity Band Near Rounded V-Notch; 4.5 Two Plasticity Bands Near Rounded V-Notch; References; 5 Stress Concentration Near Hole in Elastic Plane; 5.1 Elliptical Hole; 5.1.1 Stress Concentration Near Elliptical Hole; 5.1.2 Limit Transition to Parabolic Notch; 5.1.3 Stress Distribution Around Notch Tip; 5.2 Oval Hole; 5.2.1 Stress Concentration Near Narrow Slot; 5.2.2 Stress Concentration Near Oval Hole; 5.2.3 Limit Transition to Two-Tip Lens-Like Hole; 5.3 Rhombic Hole
Dimensions
unknown
Extent
1 online resource
File format
unknown
Form of item
online
Isbn
9783319445540
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Other physical details
illustrations
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
ocn959618113
Label
Stress concentration at notches, Mykhaylo P. Savruk, Andrzej Kazberuk
Publication
Antecedent source
unknown
Bibliography note
Includes bibliographical references
Carrier category
online resource
Carrier category code
  • cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
  • txt
Content type MARC source
rdacontent
Contents
  • Preface; Contents; Acronyms; 1 Method of Singular Integral Equations in Application to Problems of the Theory of Elasticity; 1.1 Basic Relationships of the Plane Theory of Elasticity; 1.1.1 Basic Equations; 1.1.2 Complex Representation of General Solution for Equations of Plane Theory of Elasticity; 1.2 System of Curvilinear Cracks in Elastic Plane; 1.2.1 Selected Information Concerning the Theory of Analytical Functions; 1.2.2 Single Curvilinear Crack; 1.2.3 System of Curvilinear Cracks; 1.3 System of Curvilinear Holes and Cracks in Elastic Body; 1.3.1 Multiply Connected Region with Holes
  • 1.3.2 Multiply Connected Region with Holes and Cracks1.4 Numerical Solution of Singular Integral Equations; 1.4.1 Quadrature Formulas; 1.4.2 Integral Equation on an Open Contour; 1.4.3 Integral Equation on a Closed Contour; References; 2 Stress Distribution in Elastic Plane with a Semi-infinite Notch; 2.1 Methods for Stress Analysis in Notched Bodies; 2.2 Eigensolutions of Elasticity Theory Plane Problem for Wedge; 2.2.1 Characteristic Equations; 2.2.2 Stress Intensity Factors in V-Notch Tip; 2.2.3 Constructing General Solution Using Eigenfunctions
  • 2.3 Semi-infinite Curvilinear Notches in Elastic Plane2.3.1 Parabolic Notch; 2.3.2 Hyperbolic Notch; 2.3.3 Curvilinear Notch of Special Shape; 2.4 Rounded V-Notch Under Symmetrical Loading; 2.4.1 Problem Definition and Reduction to Singular Integral Equation; 2.4.2 Symmetrical Stress Distribution in Plane with Rounded V-Notch; 2.5 Rounded V-Notch Under Mixed Loading; 2.5.1 Antisymmetric Stress Distribution; 2.5.2 Complex-Stressed State; References; 3 Elastic Plane with Semi-infinite Notch and Cracks; 3.1 Elastic Wedge with Edge Crack at Notch Tip
  • 3.1.1 Solutions Obtained Using Wiener -- Hopf Method3.1.2 Approximate Closed-Form Solution for Symmetrical Loading; 3.2 Edge Crack System in Semi-infinite Rounded V-Notch Tip; 3.2.1 Reduction of Problem to Singular Integral Equations; 3.2.2 Numerical Solution of Singular Integral Equations; 3.3 Symmetrical Edge Crack in Rounded V-Notch Tip; 3.4 Two Symmetrical Edge Cracks in Rounded V-Notch Tip; References; 4 Deformation Fracture Criterion for Bodies with Notches; 4.1 Fracture Criteria for Notched Solid Bodies; 4.2 Model of Plasticity Bands in Fracture Mechanics; 4.2.1 Plane Stress State
  • 4.2.2 Plane Strain State4.3 Infinite Wedge with Plasticity Bands; 4.3.1 Plane Stress State; 4.3.2 Plane Strain State; 4.4 Plasticity Band Near Rounded V-Notch; 4.5 Two Plasticity Bands Near Rounded V-Notch; References; 5 Stress Concentration Near Hole in Elastic Plane; 5.1 Elliptical Hole; 5.1.1 Stress Concentration Near Elliptical Hole; 5.1.2 Limit Transition to Parabolic Notch; 5.1.3 Stress Distribution Around Notch Tip; 5.2 Oval Hole; 5.2.1 Stress Concentration Near Narrow Slot; 5.2.2 Stress Concentration Near Oval Hole; 5.2.3 Limit Transition to Two-Tip Lens-Like Hole; 5.3 Rhombic Hole
Dimensions
unknown
Extent
1 online resource
File format
unknown
Form of item
online
Isbn
9783319445540
Level of compression
unknown
Media category
computer
Media MARC source
rdamedia
Media type code
  • c
Other physical details
illustrations
Quality assurance targets
not applicable
Reformatting quality
unknown
Sound
unknown sound
Specific material designation
remote
System control number
ocn959618113

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