Mei Qi scite author profile

Mei Qi

4Publications

128Citation Statements Received

49Citation Statements Given

How they've been cited

213

128

How they cite others

Affiliations

Kunming University of Science and Technology, Research Institute of Petroleum Exploration and Development, Wuhan University of Technology

Publications

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High speed synchrotron x-ray phase contrast imaging of dynamic material response to split Hopkinson bar loading

Hudspeth

Claus

Dubelman

et al. 2013

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The successful process of amalgamating both the time-resolved imaging capabilities present at the Advanced Photon Source beamline 32ID-B and the proficiency of high-rate loading offered by the split Hopkinson or Kolsky compression/tension bar apparatus is discussed and verification of system effectiveness is expressed via dynamic experiments on various material systems. Single particle sand interaction along with glass cracking during dynamic compression, and fiber-epoxy interfacial failure, ligament-bone debonding, and single-crystal silicon fragmentation due to dynamic tension, were imaged with 0.5 μs temporal resolution and μm-level spatial resolution. Synchrotron x-ray phase contrast imaging of said material systems being loaded with the Kolsky bar apparatus demonstratively depicts the effectiveness of the novel union between these two powerful techniques, thereby allowing for in situ analysis of the interior of the material system during high-rate loading for a variety of applications.

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Note: Dynamic strain field mapping with synchrotron X-ray digital image correlation

Liu

Fan

Bie

et al. 2014

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We present a dynamic strain field mapping method based on synchrotron X-ray digital image correlation (XDIC). Synchrotron X-ray sources are advantageous for imaging with exceptional spatial and temporal resolutions, and X-ray speckles can be produced either from surface roughness or internal inhomogeneities. Combining speckled X-ray imaging with DIC allows one to map strain fields with high resolutions. Based on experiments on void growth in Al and deformation of a granular material during Kolsky bar/gas gun loading at the Advanced Photon Source beamline 32ID, we demonstrate the feasibility of dynamic XDIC. XDIC is particularly useful for dynamic, in-volume, measurements on opaque materials under high strain-rate, large, deformation.

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Visual Sentiment Analysis by Combining Global and Local Information

Jian

et al. 2019

Neural Process Lett

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Transient x-ray diffraction with simultaneous imaging under high strain-rate loading

Fan

Liu

et al. 2014

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Real time, in situ, multiframe, diffraction, and imaging measurements on bulk samples under high and ultrahigh strain-rate loading are highly desirable for micro- and mesoscale sciences. We present an experimental demonstration of multiframe transient x-ray diffraction (TXD) along with simultaneous imaging under high strain-rate loading at the Advanced Photon Source beamline 32ID. The feasibility study utilizes high strain-rate Hopkinson bar loading on a Mg alloy. The exposure time in TXD is 2-3 μs, and the frame interval is 26.7-62.5 μs. Various dynamic deformation mechanisms are revealed by TXD, including lattice expansion or compression, crystal plasticity, grain or lattice rotation, and likely grain refinement, as well as considerable anisotropy in deformation. Dynamic strain fields are mapped via x-ray digital image correlation, and are consistent with the diffraction measurements and loading histories.

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Mei Qi

High speed synchrotron x-ray phase contrast imaging of dynamic material response to split Hopkinson bar loading

Note: Dynamic strain field mapping with synchrotron X-ray digital image correlation

Visual Sentiment Analysis by Combining Global and Local Information

Transient x-ray diffraction with simultaneous imaging under high strain-rate loading

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