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Journal article

Dark-field X-ray microscopy reveals mosaicity and strain gradients across sub-surface TiC and TiN particles in steel matrix composites

By Hlushko, K.1; Keckes, J.1; Ressel, G.2; Pörnbacher, J.2; Ecker, W.2; Kutsal, Mustafacan3,4; Cook, P. K.5; Detlefs, C.5; Yildirim, C.5

From

Montanuniversität Leoben1

The Materials Center Leoben2

Department of Physics, Technical University of Denmark3

Neutrons and X-rays for Materials Physics, Department of Physics, Technical University of Denmark4

European Synchrotron Radiation Facility5

Residual strain gradients and crystallographic mosaicity across embedded ceramic particles within metal-matrix composites have remained experimentally inaccessible. In this work, we use synchrotron dark-field X-ray microscopy to characterize strain and orientation gradients across ~20 µm large TiC and TiN particles embedded in a steel matrix annealed at 480 and 600 °C.

The results document gradual crystallographic orientation changes across the particles and the presence of sub-grains, in contrast to electron backscatter diffraction data. These gradients appear, however, not directly correlated with the observed strain gradients, which are attributed mainly to the different strain states within particles’ interiors and envelopes.

Language: English
Year: 2020
Pages: 402-406
ISSN: 18728456 and 13596462
Types: Journal article
DOI: 10.1016/j.scriptamat.2020.06.053
ORCIDs: 0000-0003-4770-4331 , 0000-0001-5714-4257 and Kutsal, Mustafacan
Keywords

Crystal orientation Dark-field X-ray microscopy Metal matric composites Residual strain TiN and TiC

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