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Scanning Three-Dimensional X-ray Diffraction Microscopy with a Spiral Slit

Yujiro Hayashi, Daigo Setoyama, Kunio Fukuda, Katsuharu Okuda, Naoki Katayama, Hidehiko Kimura

2023Quantum Beam Science15 citationsDOIOpen Access PDF

Abstract

Recently, nondestructive evaluation of the stresses localized in grains was achieved for plastically deformed low-carbon steel using scanning three-dimensional X-ray diffraction (S3DXRD) microscopy with a conical slit. However, applicable metals and alloys were restricted to a single phase and evaluated stress was underestimated due to the fixed Bragg angles of the conical slit optimized to αFe. We herein propose S3DXRD with a rotating spiral slit adaptable to various metals and alloys and accurate stress evaluation with sweeping Bragg angles. Validation experiments with a 50-keV X-ray microbeam were conducted for low-carbon steel as a body-centered cubic (BCC) phase and pure Cu as a face-centered cubic (FCC) phase. As a result of orientation mapping, polygonal grain shapes and clear grain boundaries were observed for both BCC and FCC metals. Thus, it was demonstrated that S3DXRD with a rotating spiral slit will be applicable to various metals and alloys, multiphase alloys, and accurate stress evaluation using a X-ray microbeam with a higher photon energy within an energy range determined by X-ray focusing optics. In principle, this implies that S3DXRD becomes applicable to larger and thicker metal and alloy samples instead of current miniature test or wire-shaped samples if a higher-energy X-ray microbeam is available.

Topics & Concepts

MicrobeamMaterials scienceConical surfaceOpticsDiffractionPhase (matter)MicroscopySpiral (railway)AlloyX-ray crystallographyMetallurgyComposite materialPhysicsMathematical analysisMathematicsQuantum mechanicsMicrostructure and Mechanical Properties of SteelsMicrostructure and mechanical propertiesAdvanced Surface Polishing Techniques
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