Data for: Understanding thermally-activated glide of $1/2$\hkl<110>\hkl{110} screw dislocations in UO$_2$ -- a molecular dynamics analysis

Published: 28 Jul 2018 | Version 1 | DOI: 10.17632/j2mkfkd867.1
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Description of this data

Visualization of dislocation motion. First animation shows strong self-pinning, extremely bent dislocation line, unpinning by generating defect clusters and Frank loops, partial dissociation (T = 2000 K, shear stress = 1000 MPa). Second animation shows kink-driven motion with some dissociation (T = 1250 K, shear stress = 100 MPa).

Experiment data files

This data is associated with the following publication:

Understanding thermally-activated glide of 1/2〈110〉{110} screw dislocations in UO2 – A molecular dynamics analysis

Published in: International Journal of Plasticity

Latest version

  • Version 1

    2018-07-28

    Published: 2018-07-28

    DOI: 10.17632/j2mkfkd867.1

    Cite this dataset

    Lunev, Artem; Tseplyaev, Vasily; Starikov, Sergey (2018), “Data for: Understanding thermally-activated glide of $1/2$\hkl<110>\hkl{110} screw dislocations in UO$_2$ -- a molecular dynamics analysis”, Mendeley Data, v1 http://dx.doi.org/10.17632/j2mkfkd867.1

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Computational Materials Science

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