TY  - JOUR
A1  - Hollmann, Andreas
A1  - Meixner, Matthias
A1  - Klaus, Manuela
A1  - Genzel, Christoph
T1  - Concepts for nondestructive and depth‐resolved X‐ray residual stress analysis in the near‐surface region of nearly single crystalline materials with mosaic structure
Y1  - 2020-12-02
VL  - 54
IS  - 1
SP  - 22
EP  - 31
JF  - Journal of Applied Crystallography
DO  - 10.1107/S1600576720014016
DO  - 10.23689/fidgeo-4129
PB  - International Union of Crystallography
N2  - Two evaluation concepts for nondestructive depth‐resolved X‐ray residual stress analysis in the near‐surface region of materials with cubic symmetry and nearly single crystalline structure are introduced by simulated examples. Both concepts are based on the same data acquisition strategy, which consists in the determination of lattice‐spacing depth profiles along the ⟨hkl⟩ poles by stepwise sample rotation around the scattering vector. Segmentation of these profiles parallel to the sample surface provides the lattice strain state as a function of depth. The first evaluation concept extends the crystallite group method developed for materials with pronounced crystallographic texture by the feature of depth resolution and can be applied to samples with arbitrary orientation. The second evaluation concept, which adapts the linear regression approach of the sin2ψ method for the case of single crystalline materials, is restricted to samples with (001) orientation. The influence of the strain‐free lattice parameter a0 on residual stress analysis using both evaluation concepts is discussed on the basis of explicitly derived relations.
N2  - Two data evaluation concepts are proposed for nondestructive and depth‐resolved X‐ray residual stress analysis by means of energy‐dispersive diffraction on materials featuring cubic symmetry and a nearly single crystalline structure. image
UR  - http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/8469
ER  -