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Shockwave generates dislocation loops in bcc iron

Author

Listed:
  • Qing Peng

    (University of Michigan
    Wuhan University)

  • Fanjiang Meng

    (University of Michigan
    Shanghai Nuclear Engineering Research and Design Institute)

  • Yizhong Yang

    (University of Michigan
    Shanghai Nuclear Engineering Research and Design Institute)

  • Chenyang Lu

    (University of Michigan)

  • Huiqiu Deng

    (Hunan University)

  • Lumin Wang

    (University of Michigan)

  • Suvranu De

    (Rensselaer Polytechnic Institute)

  • Fei Gao

    (University of Michigan
    Hunan University)

Abstract

The formation mechanism of interstitial dislocation loops in ferritic steels stemming from irradiation remains elusive, as their formations are either too short for experiments, or too long for molecular dynamics simulations. Here, we report on the formation of both interstitial and vacancy dislocation loops in high energy displacement cascades using large-scale molecular dynamics simulations with up to 220 million atoms. Riding the supersonic shockwave generated in the cascade, self-interstitial atoms are punched out to form dislocation loops in only a few picoseconds during one single cascade event, which is several orders of magnitude faster than any existing mechanisms. The energy analysis suggests that the formation of the interstitial loops depends on kinetic energy redistribution, where higher incidence energy or larger atom mass could improve the probability of the direct nucleation of interstitial dislocation loops.

Suggested Citation

  • Qing Peng & Fanjiang Meng & Yizhong Yang & Chenyang Lu & Huiqiu Deng & Lumin Wang & Suvranu De & Fei Gao, 2018. "Shockwave generates dislocation loops in bcc iron," Nature Communications, Nature, vol. 9(1), pages 1-6, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-07102-3
    DOI: 10.1038/s41467-018-07102-3
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