1. Brittle fracture studied by ultra-high-speed synchrotron X-ray diffraction imaging.
- Author
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Petit, Antoine, Pokam, Sylvia, Mazen, Frederic, Tardif, Samuel, Landru, Didier, Kononchuk, Oleg, Mohamed, Nadia Ben, Olbinado, Margie P., Rack, Alexander, and Rieutord, Francois
- Subjects
BRITTLE fractures ,X-ray imaging ,X-ray diffraction ,SYNCHROTRON radiation ,MINIMAL surfaces ,SYNCHROTRONS - Abstract
In situ investigations of cracks propagating at up to 2.5 km s
-1 along an (001) plane of a silicon single crystal are reported, using X-ray diffraction megahertz imaging with intense and time-structured synchrotron radiation. The studied system is based on the Smart Cut process, where a buried layer in a material (typically Si) is weakened by microcracks and then used to drive a macroscopic crack (10-1 m) in a plane parallel to the surface with minimal deviation (10-9 m). A direct confirmation that the shape of the crack front is not affected by the distribution of the microcracks is provided. Instantaneous crack velocities over the centimetre-wide field of view were measured and showed an effect of local heating by the X-ray beam. The post-crack movements of the separated wafer parts could also be observed and explained using pneumatics and elasticity. A comprehensive view of controlled fracture propagation in a crystalline material is provided, paving the way for the in situ measurement of ultra-fast strain field propagation. [ABSTRACT FROM AUTHOR]- Published
- 2022
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