Add to ORKGAs the fatigue strength of metallic components may be affected by residual stress variation at small length scales, an evaluation method for studying residual stress at sub-mm scale is needed. The sin2ψ method using X-ray diffraction (XRD) is a common method to measure residual stress. However, this method has a lower limit on length scale. In the present study, a method using at a 2D XRD detector with ω-oscillation is proposed, and the measured residual stress obtained by the 2D method is compared to results obtained from the sin2ψ method and the slitting method. The results show that the 2D method can evaluate residual stress in areas with a diameter of 0.2 mm or less in a stainless steel with average grain size of 7 μm. The 2D method was...
This paper present the primary difficulties which are associated with the obtaining and interpreting...
This study compares the residual stresses formed on samples before Laser Shock Peening (LSP) and aft...
Laser Shock Peening is a fatigue enhancement treatment using laser energy to induce compressive Resi...
As the fatigue strength of metallic components may be affected by residual stress variation at small...
Copyright © 2013 Osamu Takakuwa, Hitoshi Soyama. This is an open access article distributed under th...
[Synopsis] Laser peening can introduce compressive residual stress to the surface and, therefore, is...
A brief theoretical development of x-ray diffraction residual stress measurement is presented emphas...
Fatigue is one of the main failure mechanisms in engineering. Mechanical surface treatments are bein...
In recent years, laser cladding technology has been attracting extensive research interest owing to ...
A main beneficial effect of shot peening is the creation of compressive residual stresses. Thus, rel...
compressive stresses close to the surface of a metal component. The method is particularly useful in...
The in-depth distribution of residual stresses in shot-peened steels was measured by using high ener...
A dissertation submitted to the Faculty of Engineering and the Built Environment, University of the...
Shot peening is commonly used to reduce fatigue failures in industrial parts by introducing compress...
This paper described a new nondestructive measurement of the in-depth distribution of residual stres...
This paper present the primary difficulties which are associated with the obtaining and interpreting...
This study compares the residual stresses formed on samples before Laser Shock Peening (LSP) and aft...
Laser Shock Peening is a fatigue enhancement treatment using laser energy to induce compressive Resi...
As the fatigue strength of metallic components may be affected by residual stress variation at small...
Copyright © 2013 Osamu Takakuwa, Hitoshi Soyama. This is an open access article distributed under th...
[Synopsis] Laser peening can introduce compressive residual stress to the surface and, therefore, is...
A brief theoretical development of x-ray diffraction residual stress measurement is presented emphas...
Fatigue is one of the main failure mechanisms in engineering. Mechanical surface treatments are bein...
In recent years, laser cladding technology has been attracting extensive research interest owing to ...
A main beneficial effect of shot peening is the creation of compressive residual stresses. Thus, rel...
compressive stresses close to the surface of a metal component. The method is particularly useful in...
The in-depth distribution of residual stresses in shot-peened steels was measured by using high ener...
A dissertation submitted to the Faculty of Engineering and the Built Environment, University of the...
Shot peening is commonly used to reduce fatigue failures in industrial parts by introducing compress...
This paper described a new nondestructive measurement of the in-depth distribution of residual stres...
This paper present the primary difficulties which are associated with the obtaining and interpreting...
This study compares the residual stresses formed on samples before Laser Shock Peening (LSP) and aft...
Laser Shock Peening is a fatigue enhancement treatment using laser energy to induce compressive Resi...