Residual Stresses IX -- Preface, Committees and Sponsors -- Table of Contents -- Chapter I. Measurement Methods -- I.1. Local Scale Measurements -- Strain Measurement with Nanometre Resolution by Transmission Electron Microscopy -- Intragranular Residual Stress Evaluation Using the Semi-Destructive FIB-DIC Ring-Core Drilling Method -- Tailored Mechanical Properties and Residual Stresses of a-C:H:W Coatings -- Residual Stress State in Oxide Dispersive Steel due to Irradiation by Swift Heavy Ions -- Study of Microstrain and Stress in Non-Planar Palladium Membranes for Hydrogen Separation -- Relationship between Dislocation Density and Macro Strain of High-Heat-Load Materials -- X-Ray Line Profile Study on Shot/Laser-Peened Stainless Steel -- I.2. Diffraction at Grain Scale and Multiscale Diffraction -- Local Stress Analysis in an SMA during Stress-Induced Martensitic Transformation by Kossel Microdiffraction -- A Profile-Based Method of Determining Intragranular Strains Using Kossel Diffraction Patterns -- Matrix Method for X-Ray Stress Measurement in Single Crystals, and the Rational Planning of the Measurements -- Measurement of Complementary Strain Fields at the Grain Scale -- Impact of Shot-Peening on a Single Crystal Nickel-Based Superalloy -- Evaluation of Welding Residual Stresses Using Diffraction Spot Trace Method -- Accounting for a Distribution of Morphologies and Orientations on Stresses Analysis by X-Ray and Neutron Diffraction: Normalized Self-Consistent Modeling -- Effect of Interlamellar Spacing on the Monotonic Behavior of C70 Pearlitic Steel -- Experimental and Numerical Analysis of Mechanical Behaviour of AISI 316L Austenitic Stainless Steel: Two Level Homogenization - Neutron Diffraction -- Influence of Morphological Texture on Stresses Analysis by X-Ray and Neutron Diffraction: Accounting for Extreme Morphologies.

Modeling Methodology for Stress Determination by XRD in Polycrystalline Materials -- New Modelling Approach for Micromechanical Modelling of the Elastoplastic Behaviour -- Study of Mechanical Behaviour of Polycrystalline Materials at the Mesoscale Using High Energy X-Ray Diffraction -- Distribution of Residual Deformation Effects in Shell Tubes from Ferritic-Martensitic Steels -- Residual Stress Tensor Distributions in Cracked Austenitic Stainless Steel Measured by Two-Dimensional X-Ray Diffraction Method -- Microscopic Stress and Strain Evolved in a Twinning-Induced Plasticity Fe-Mn-C Steel -- I.3. Diffraction: Gradients and Instrumental Developments -- Effects of Misalignment of Parallel Beam Optics on Thin Film Stress Analysis -- New Developments of Multireflection Grazing Incidence Diffraction -- Determination of Stress Profiles in Expanded Austenite by Combining Successive Layer Removal and GI-XRD -- Stress Gradient Analysis by Noncomplanar x-Ray Diffraction and Corresponding Refraction Correction -- Spatial Convolution of a Stress Field Analyzed by X-Ray Diffraction -- Influence of Layer Removal Methods in Residual Stress Profiling of a Shot Peened Steel Using X-Ray Diffraction -- Material Removal, Correction and Laboratory X-Ray Diffraction -- Looking Towards the Future of Strain Scanning Using Neutron Diffraction -- Energy-Dispersive Residual Stress Analysis under Laboratory Conditions: Concept for a New Type of Diffractometer -- Optimizing Experiment Performance by Realistic Sample Simulations -- MYTHEN Detector - Perspectives in Residual Stress Measurements -- Gamma Profile Analysis for Stress, Texture and Grain Size -- About Error Calculation in X-Ray Stress Measurement -- External Reference Samples for Residual Stress Analysis by X-Ray Diffraction.

X-Ray Optics and Precision Requirements for Residual Stress Analyses with High Spatial Resolution -- I.4. Mechanical Relaxation Methods -- Beyond the Streetlight Effect: A United Future for Relaxation and Diffraction Methods for Residual Stress Measurement -- Numerical Reconstruction of Residual Stress Fields from Limited Measurements -- Plasticity and Stress Heterogeneity Influence on Mechanical Stress Relaxation Residual Stress Measurements -- Residual Stress Measurement with Laser-Optical and Mechanical Methods -- Application of the Incremental Hole-Drilling Method for the Determination of Residual Stresses in Glass-Fiber Reinforced Composites -- Assessing Shot-Peening Residual Stresses by Using the Incremental Hole-Drilling Technique and Laser Interferometry (DSPI) -- Combining XRD with Hole-Drilling Method in Residual Stress Gradient Analysis of Laser Hardened C45 Steel -- Incremental Hole-Drilling Method Vs. Thin Components: A Simple Correction Approach -- Influence of Gradients in the Elastic Anisotropy on the Reliability of Residual Stresses Determined by the Hole Drilling Method -- Residual Stress Measurement on Large Shafts -- Residual Stress Measurement Using the Hole Drilling Technique on Components outside the ASTM E837 Standard -- Investigation of Influence Factors on Residual Stress Determination within Coated Surfaces in Consideration of the Differential and Integral Method -- A Measuring and Evaluation Program for the Application of the Ring-Core or Hole-Drilling Method -- Four-Point Bending Tests to Study the So-Called Plasticity Effect on the Residual Stress Results Determined by the Hole-Drilling and Ring-Core Methods -- Estimation of Residual Stress Field Uniformity when Using the Ring-Core Method -- Integral Method Coefficients and Regularization Procedure for the Ring-Core Residual Stress Measurement Technique.

Plasticity in the Contour Method of Residual Stress Measurement -- Residual Stress Measurement Methods Comparison in High-Strength Steel for Naval Application -- Residual Stress Measurements on a Metal Matrix Composite Using the Contour Method with Brittle Fracture -- Improvement to Stress Calculation Model of LRM in Thick Plate -- Stoney Formula: Investigation of Curvature Measurements by Optical Profilometer -- Characterization of Residual Stresses and Accumulated Plastic Strain Induced by Shot Peening through Simulation of Instrumented Indentation -- I.5. Acoustics and Electromagnetics Methods -- Characterisation of In-Depth Stress State by Magnetic Barkhausen Noise on Machined Steel Acquiring Different Frequency Bands -- Residual Stress Measurement of Shot-Peened Steel Rings by Barkhausen Noise, ESPI Hole-Drilling and X-Ray Diffraction -- Application of Local Current Pulses for Determination and Control of Residual Stresses -- Characterization of Micrometric and Localised Residual Stresses on Amorphous Materials Using Dispersion of Surface Acoustic Waves -- Flexible Head, Designed for Measuring Residual Stress along Variable Curves Using Ultra-Sonic Tranducers -- Identification of Inhomogeneous Residual Stress State in Elastic Cylinder within the Framework of Plane Strain -- Nondestructive Identification of Inhomogeneous Residual Stress State in Deformable Bodies on the Basis of the Acoustic Sounding Method -- Chapter II. Manufacturing and Materials Processing -- II.1. Welding -- In Situ Observation of Stress Accumulation during Sub-Merged Arc Welding -- Neutron Diffraction Strain Measurement during TIG Welding -- Stress Measurement at Loaded Aluminium Welds Using Diffraction Methods -- Neutron and X-Ray Diffraction Residual Stress Measurements in Aluminium Alloys MIG Welded T-Joints after Friction Stir Processing.

The Effect of Specimen Size on Residual Stresses in Friction Stir Welded Aluminum Components -- Welding Induced Residual Stresses in Explosion Cladded AL-6XN Superaustenitic Stainless Steel and ASME SA516-70 Steel Composite Plates -- Welding Residual Stress Distribution of Quenched and Tempered and Thermo-Mechanically Hot Rolled High Strength Steels -- Influence of Beam Speed on Residual Stresses in the Vicinity of Laser Welds -- Evaluation of Weld Filler Alloying Concepts for Residual Stress Engineering by Means of Neutron and X-Ray Diffraction -- Influence of Heat Control on Welding Stresses in Multilayer-Component Welds of High-Strength Steel S960QL -- Investigating the Effects of Process Variables on the Residual Stresses of Weld and Laser Cladding -- Residual Stresses in Multi-Pass Butt-Welded Tubular Joints -- Microstructure and Residual Stress Analysis of Explosion Cladded Inconel 625 and ASME SA516-70 Carbon Steel Bimetal Plates -- Residual Stresses of Explosion Cladded Composite Plates of ZERON 100 Superduplex Stainless Steel and ASTM SA516-70 Carbon Steel -- Influence of Welding Defects on Residual Stresses: Numerical Study -- The Influence of Austenite Grain Size during Welding Simulations of Ferritic Steels -- Welding Simulation Used in the Design of Metallic Armor Systems -- II.2. Heat Treatment and Phase Transformation -- Investigation of Triaxial Stress State in Retained Austenite during Quenching of a Low Alloy Steel by In Situ X-Ray Diffraction -- Analysis of Quenching and Stretching Processes of Aluminum Alloy Thick Plates -- Residual Stress Distribution Caused by Laser Hardening and Conventional Quenching in Plain Carbon Steel -- Evolution of Residual Stresses during Short Time Nitriding of 33CrMoV12-9 Steel Grade.

Investigations of Residual Stress Distributions in Retained Austenite and Martensite after Carbonitriding of a Low Alloy Steel.