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arxiv: 2504.05796 · v1 · pith:7LSTLAFF · submitted 2025-04-08 · cond-mat.mtrl-sci · physics.ins-det

X-ray Strain and Stress Tensor Tomography

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classification cond-mat.mtrl-sci physics.ins-det
keywords stressstrainexperimentallongcomponentsdepth-resolvedlimitationslimited
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The microscopic distribution of strain and stress plays a crucial role for the performance, safety, and lifetime of components in aeronautics, automotive and critical infrastructure [1]. While non-destructive methods for measuring the stress close to the surface have long been long established, only a limited number of approaches for depth-resolved measurements based on x-rays or neutrons are available [2]. These feature significant limitations, including long scan times, intricate experimental set-ups, limited spatial resolution or anisotropic gauge volumes with aspect ratios of 1:10 or worse. Here, we present a method that overcomes these limitations and obtains tomographic reconstructions of the full six-dimensional strain and stress tensor components. Using a simple and wide spread experimental set-up that combines x-ray powder diffraction with single axis tomography, we achieve non-destructive determination of depth-resolved strain and stress distributions with isotropic resolution. The presented method could be of interest for additive manufacturing of metals [3,4], battery research [5], in-situ metallurgy [6] and the experimental validation of finite element simulations [7].

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