Rietveld-based energy-dispersive residual stress evaluation: analysis of complex stress fields σij(z)

A method for the evaluation of strongly inhomogeneous residual stress fields in the near‐surface region of polycrystalline materials is introduced, which exploits the full information content contained in energy‐dispersive (ED) diffraction patterns. The macro‐stress‐induced diffraction line shifts Δ...

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Bibliographic Details
Published in:Journal of applied crystallography 2014-04, Vol.47 (2), p.511-526
Main Authors: Apel, Daniel, Klaus, Manuela, Genzel, Martin, Genzel, Christoph
Format: Article
Language:English
Subjects:
Aluminum oxide
Bearing steels
Chromium steels
Data processing
depth gradients
Diffraction
Diffraction patterns
energy-dispersive diffraction
Mathematical models
Residual stress
residual stress analysis
Rietveld refinement
Stresses
triaxial residual stress state
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Summary:A method for the evaluation of strongly inhomogeneous residual stress fields in the near‐surface region of polycrystalline materials is introduced, which exploits the full information content contained in energy‐dispersive (ED) diffraction patterns. The macro‐stress‐induced diffraction line shifts ΔEψhkl observed in ED sin2ψ measurements are described by modeling the residual stress state σij(z) in real space, based on Rietveld's data analysis concept. Therefore, the proposed approach differs substantially from currently used methods for residual stress gradient analysis such as the `universal plot' method, which enable access to the Laplace stress profiles σij(τ). With the example of shot‐peened samples made of either 100Cr6 steel or Al2O3, it is demonstrated that the simultaneous refinement of all diffraction patterns obtained in a sin2ψ measurement with hundreds of diffraction lines provides very stable solutions for the residual stress depth profiles. Furthermore, it is shown that the proposed evaluation concept even allows for consideration of the residual stress component σ33(z) in the thickness direction, which is difficult to detect by conventional sin2ψ analysis.
ISSN:1600-5767
1600-5767
DOI:10.1107/S1600576713034158