Journal
QUANTUM BEAM SCIENCE
Volume 3, Issue 1, Pages -Publisher
MDPI
DOI: 10.3390/qubs3010005
Keywords
computed microtomography; synchrotron radiation; fracture behavior; laminated structural metals
Categories
Funding
- National Key research & development Plan [2017YFA0403803, 2017YFB0703100]
- National Natural Science Foundation of China [51801042, 51571070, 51571071]
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Synchrotron radiation computed micro-tomography (SR-mu CT) is a non-destructive characterization method in materials science, which provides the quantitative reconstruction of a three-dimension (3D) volume image with spatial resolution of sub-micrometer level. The recent progress in brilliance and flux of synchrotron radiation source has enabled the fast investigation of the inner microstructure of metal matrix composites without complex sample preparation. The 3D reconstruction can quantitatively describe the phase distribution as well as voids/cracks formation and propagation in structural metals, which provides a powerful tool to investigate the deformation and fracture processes. Here, we present an overview of recent work using SR-mu CT, on the applications in structural metals.
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