Practical residual stress measurement methods

Practical residual stress measurement methods / edited by Gary S. Schajer.

"This comprehensive collection of practical residual stress measurement techniques is written by world-renowned experts in their respective fields. It provides the reader with the information needed to understand key concepts and to make informed technical decisions. Fully illustrated throughou...

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Bibliographic Details
Other Authors: Schajer, Gary S. (Editor)
Format: eBook
Language:English
Published: Chichester, West Sussex, United Kingdom : Wiley, 2013.
Subjects:
Residual stresses.
internal stress.
TECHNOLOGY & ENGINEERING > Quality Control.
Residual stresses
Online Access:Click for online access
Table of Contents:
  • Machine generated contents note: 1.1. Introduction / Gary S. Schajer / Clayton 0. Ruud
  • 1.1.1. Character and Origin of Residual Stresses / Gary S. Schajer / Clayton 0. Ruud
  • 1.1.2. Effects of Residual Stresses / Clayton 0. Ruud / Gary S. Schajer
  • 1.1.3. Residual Stress Gradients / Clayton 0. Ruud / Gary S. Schajer
  • 1.1.4. Deformation Effects of Residual Stresses / Clayton 0. Ruud / Gary S. Schajer
  • 1.1.5. Challenges of Measuring Residual Stresses / Gary S. Schajer / Clayton 0. Ruud
  • 1.1.6. Contribution of Modern Measurement Technologies / Clayton 0. Ruud / Gary S. Schajer
  • 1.2. Relaxation Measurement Methods / Clayton 0. Ruud / Gary S. Schajer
  • 1.2.1. Operating Principle / Gary S. Schajer / Clayton 0. Ruud
  • 1.3. Diffraction Methods / Clayton 0. Ruud / Gary S. Schajer
  • 1.3.1. Measurement Concept / Clayton 0. Ruud / Gary S. Schajer
  • 1.3.2. X-ray Diffraction / Clayton 0. Ruud / Gary S. Schajer
  • 1.3.3. Synchrotron X-ray / Gary S. Schajer / Clayton 0. Ruud
  • 1.3.4. Neutron Diffraction / Clayton 0. Ruud / Gary S. Schajer
  • 1.4. Other Methods / Gary S. Schajer / Clayton 0. Ruud
  • 1.4.1. Magnetic / Clayton 0. Ruud / Gary S. Schajer
  • 1.4.2. Ultrasonic / Clayton 0. Ruud / Gary S. Schajer
  • 1.4.3. Thermoelastic / Gary S. Schajer / Clayton 0. Ruud
  • 1.4.4. Photoelastic / Clayton 0. Ruud / Gary S. Schajer
  • 1.4.5. Indentation / Gary S. Schajer / Clayton 0. Ruud
  • 1.5. Performance and Limitations of Methods / Clayton 0. Ruud / Gary S. Schajer
  • 1.5.1. General Considerations / Clayton 0. Ruud / Gary S. Schajer
  • 1.5.2. Performance and Limitations of Methods / Gary S. Schajer / Clayton 0. Ruud
  • 1.6. Strategies for Measurement Method Choice / Clayton 0. Ruud / Gary S. Schajer
  • 1.6.1. Factors to be Considered / Clayton 0. Ruud / Gary S. Schajer
  • 1.6.2. Characteristics of Methods / Gary S. Schajer / Clayton 0. Ruud
  • References / Gary S. Schajer / Clayton 0. Ruud
  • 2.1. Introduction / Philip S. Whitehead / Gary S. Schajer
  • 2.1.1. Introduction and Context / Gary S. Schajer / Philip S. Whitehead
  • 2.1.2. History / Philip S. Whitehead / Gary S. Schajer
  • 2.1.3. Deep Hole Drilling / Philip S. Whitehead / Gary S. Schajer
  • 2.2. Data Acquisition Methods / Philip S. Whitehead / Gary S. Schajer
  • 2.2.1. Strain Gages / Philip S. Whitehead / Gary S. Schajer
  • 2.2.2. Optical Measurement Techniques / Philip S. Whitehead / Gary S. Schajer
  • 2.3. Specimen Preparation / Philip S. Whitehead / Gary S. Schajer
  • 2.3.1. Specimen Geometry and Strain Gage Selection / Philip S. Whitehead / Gary S. Schajer
  • 2.3.2. Surface Preparation / Philip S. Whitehead / Gary S. Schajer
  • 2.3.3. Strain Gage Installation / Philip S. Whitehead / Gary S. Schajer
  • 2.3.4. Strain Gage Wiring / Philip S. Whitehead / Gary S. Schajer
  • 2.3.5. Instrumentation and Data Acquisition / Philip S. Whitehead / Gary S. Schajer
  • 2.4. Hole Drilling Procedure / Philip S. Whitehead / Gary S. Schajer
  • 2.4.1. Drilling Cutter Selection / Philip S. Whitehead / Gary S. Schajer
  • 2.4.2. Drilling Machines / Philip S. Whitehead / Gary S. Schajer
  • 2.4.3. Orbital Drilling / Philip S. Whitehead / Gary S. Schajer
  • 2.4.4. Incremental Measurements / Philip S. Whitehead / Gary S. Schajer
  • 2.4.5. Post-drilling Examination of Hole and Cutter / Philip S. Whitehead / Gary S. Schajer
  • 2.5. Computation of Uniform Stresses / Philip S. Whitehead / Gary S. Schajer
  • 2.5.1. Mathematical Background / Philip S. Whitehead / Gary S. Schajer
  • 2.5.2. Data Averaging / Philip S. Whitehead / Gary S. Schajer
  • 2.5.3. Plasticity Effects / Philip S. Whitehead / Gary S. Schajer
  • 2.5.4. Ring Core Measurements / Philip S. Whitehead / Gary S. Schajer
  • 2.5.5. Optical Measurements / Philip S. Whitehead / Gary S. Schajer
  • 2.5.6. Orthotropic Materials / Philip S. Whitehead / Gary S. Schajer
  • 2.6. Computation of Profile Stresses / Philip S. Whitehead / Gary S. Schajer
  • 2.6.1. Mathematical Background / Philip S. Whitehead / Gary S. Schajer
  • 2.7. Example Applications / Philip S. Whitehead / Gary S. Schajer
  • 2.7.1. Shot-peened Alloy Steel Plate
  • Application of the Integral Method / Philip S. Whitehead / Gary S. Schajer
  • 2.7.2. Nickel Alloy Disc
  • Fine Increment Drilling / Philip S. Whitehead / Gary S. Schajer
  • 2.7.3. Titanium Test-pieces
  • Surface Processes / Philip S. Whitehead / Gary S. Schajer
  • 2.7.4. Coated Cylinder Bore
  • Adaptation of the Integral Method / Gary S. Schajer / Philip S. Whitehead
  • 2.8. Performance and Limitations of Methods / Philip S. Whitehead / Gary S. Schajer
  • 2.8.1. Practical Considerations / Philip S. Whitehead / Gary S. Schajer
  • 2.8.2. Common Uncertainty Sources / Philip S. Whitehead / Gary S. Schajer
  • 2.8.3. Typical Measurement Uncertainties / Philip S. Whitehead / Gary S. Schajer
  • References / Philip S. Whitehead / Gary S. Schajer
  • 3.1. Introduction and Background / David J. Smith
  • 3.2. Basic Principles / David J. Smith
  • 3.2.1. Elastic Analysis / David J. Smith
  • 3.2.2. Effects of Plasticity / David J. Smith
  • 3.3. Experimental Technique / David J. Smith
  • 3.4. Validation of DHD Methods / David J. Smith
  • 3.4.1. Tensile Loading / David J. Smith
  • 3.4.2. Shrink Fitted Assembly / David J. Smith
  • 3.4.3. Prior Elastic-plastic Bending / David J. Smith
  • 3.4.4. Quenched Solid Cylinder / David J. Smith
  • 3.5. Case Studies / David J. Smith
  • 3.5.1. Welded Nuclear Components / David J. Smith
  • 3.5.2. Components for the Steel Rolling Industry / David J. Smith
  • 3.5.3. Fibre Composites / David J. Smith
  • 3.6. Summary and Future Developments / David J. Smith
  • Acknowledgments / David J. Smith
  • References / David J. Smith
  • 4.1. Measurement Principle / Michael R. Hill
  • 4.2. Residual Stress Profile Calculation / Michael R. Hill
  • 4.3. Stress Intensity Factor Determination / Michael R. Hill
  • 4.4. Practical Measurement Procedures / Michael R. Hill
  • 4.5. Example Applications / Michael R. Hill
  • 4.6. Performance and Limitations of Method / Michael R. Hill
  • 4.7. Summary / Michael R. Hill
  • References / Michael R. Hill
  • 5.1. Introduction / Adrian T. DeWald / Michael B. Prime
  • 5.1.1. Contour Method Overview / Adrian T. DeWald / Michael B. Prime
  • 5.1.2. Bueckner's Principle / Michael B. Prime / Adrian T. DeWald
  • 5.2. Measurement Principle / Michael B. Prime / Adrian T. DeWald
  • 5.2.1. Ideal Theoretical Implementation / Michael B. Prime / Adrian T. DeWald
  • 5.2.2. Practical Implementation / Michael B. Prime / Adrian T. DeWald
  • 5.2.3. Assumptions and Approximations / Michael B. Prime / Adrian T. DeWald
  • 5.3. Practical Measurement Procedures / Michael B. Prime / Adrian T. DeWald
  • 5.3.1. Planning the Measurement / Michael B. Prime / Adrian T. DeWald
  • 5.3.2. Fixturing / Michael B. Prime / Adrian T. DeWald
  • 5.3.3. Cutting the Part / Michael B. Prime / Adrian T. DeWald
  • 5.3.4. Measuring the Surfaces / Michael B. Prime / Adrian T. DeWald
  • 5.4. Residual Stress Evaluation / Michael B. Prime / Adrian T. DeWald
  • 5.4.1. Basic Data Processing / Michael B. Prime / Adrian T. DeWald
  • 5.4.2. Additional Issues / Michael B. Prime / Adrian T. DeWald
  • 5.5. Example Applications / Michael B. Prime / Adrian T. DeWald
  • 5.5.1. Experimental Validation and Verification / Michael B. Prime / Adrian T. DeWald
  • 5.5.2. Unique Measurements / Michael B. Prime / Adrian T. DeWald
  • 5.6. Performance and Limitations of Methods / Michael B. Prime / Adrian T. DeWald
  • 5.6.1. Near Surface (Edge) Uncertainties / Michael B. Prime / Adrian T. DeWald
  • 5.6.2. Size Dependence / Michael B. Prime / Adrian T. DeWald
  • 5.6.3. Systematic Errors / Michael B. Prime / Adrian T. DeWald
  • 5.7. Further Reading On Advanced Contour Method Topics / Adrian T. DeWald / Michael B. Prime
  • 5.7.1. Superposition For Additional Stresses / Michael B. Prime / Adrian T. DeWald
  • 5.7.2. Cylindrical Parts / Michael B. Prime / Adrian T. DeWald
  • 5.7.3. Miscellaneous / Michael B. Prime / Adrian T. DeWald
  • 5.7.4. Patent / Adrian T. DeWald / Michael B. Prime
  • Acknowledgments / Adrian T.
  • DeWald / Michael B. Prime
  • References / Michael B. Prime / Adrian T. DeWald
  • 6.1. Introduction / I. Cevdet Noyan / Conal E. Murray
  • 6.2. Measurement of Lattice Strain / I. Cevdet Noyan / Conal E. Murray
  • 6.3. Analysis of Regular do, vs. sin2* Data / Conal E. Murray / I. Cevdet Noyan
  • 6.3.1. Dolle-Hauk Method / Conal E. Murray / I. Cevdet Noyan
  • 6.3.2. Winholtz-Cohen Least-squares Analysis / Conal E. Murray / I. Cevdet Noyan
  • 6.4. Calculation of Stresses / Conal E. Murray / I. Cevdet Noyan
  • 6.5. Effect of Sample Microstructure / Conal E. Murray / I. Cevdet Noyan
  • 6.6. X-ray Elastic Constants (XEC) / I. Cevdet Noyan / Conal E. Murray
  • 6.6.1. Constitutive Equation / I. Cevdet Noyan / Conal E. Murray
  • 6.6.2. Grain Interaction / Conal E. Murray / I. Cevdet Noyan
  • 6.7. Examples / Conal E. Murray / I. Cevdet Noyan
  • 6.7.1. Isotropic, Biaxial Stress / Conal E. Murray / I. Cevdet Noyan
  • 6.7.2. Triaxial Stress / I. Cevdet Noyan / Conal E. Murray
  • 6.7.3. Single-crystal Strain / Conal E. Murray / I. Cevdet Noyan
  • 6.8. Experimental Considerations / I. Cevdet Noyan / Conal E. Murray
  • 6.8.1. Instrumental Errors / Conal E. Murray / I. Cevdet Noyan
  • 6.8.2. Errors Due to Counting Statistics and Peak-fitting / I. Cevdet Noyan / Conal E. Murray.
  • Note continued: 11.6. Examples and Applications / Drew V. Nelson
  • 11.7. Performance and Limitations / Drew V. Nelson
  • References / Drew V. Nelson.

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