Prediction of Cyclic Residual Stress Relaxation by Modeling Approach
p.743
p.743
Residual Stress Gradients in AISI 9254 Steel Springs Submitted to Shot Peening and Heat Treatment for Increased Fatigue Resistance
p.749
p.749
Residual Stresses in Ultrasonically Peened Fillet Welded Joints
p.755
p.755
Understanding the Mechanisms Responsible for the Beneficial Effect of Hammer Peening in Welded Structure under Fatigue Loading
p.761
p.761
Influence of Tempering Conditions on Shot-Peened Tool Steel Components In-Depth Residual Stress Profiles
p.769
p.769
Fatigue Crack Growth in Laser Shock Peened Thin Metallic Panels
p.775
p.775
X-Ray Diffraction Residual Stress Measurements for Assessment of Rolling Contact Fatigue Behaviour of Railway Steels
p.782
p.782
Numerical Investigation of Welding Residual Stress Field and its Behaviour under Multiaxial Loading in Tubular Joints
p.788
p.788
Effects of Fatigue on the Integrity of a Friction Stir Welded Lap Joint Containing Residual Stresses
p.794
p.794
Influence of Tempering Conditions on Shot-Peened Tool Steel Components In-Depth Residual Stress Profiles
Abstract:
Tool steel (X155CrVMo121KU in the following UK15) samples were analyzed to determine the in-depth residual stress profile and to study modifications in the microstructure, induced by a shot-peening treatment. The influence of different tempering temperatures was studied. Residual stress and dislocation density profiles were measured using standard laboratory X-ray diffraction (XRD) residual stress analysis with progressive chemical layer removal. Dislocation density profiles where obtained using a Whole Powder Pattern Modeling (WPPM) procedure.
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Periodical:
Advanced Materials Research (Volume 996)
Pages:
769-774
Citation:
Online since:
August 2014
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