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    Journals >High Power Laser and Particle Beams >Volume 34 >Issue 5 >Page 056002 > Article
    • High Power Laser and Particle Beams
    • Vol. 34, Issue 5, 056002 (2022)
    Neutron irradiation effects of graphite serving in SPRR-300 reactor
    Jian Zheng, Zhanfeng Yan, Hao Wang, Qijie Feng, Xiankun Liu, Xiao Liu, Shuyu Wang, Wei Zhou, and Dazhi Qian
    Author Affiliations
  • Institute of Nuclear Physics and Chemistry, CAEP, Mianyang 621900, China
    • show less
    DOI: 10.11884/HPLPB202234.210511 Cite this Article
    Jian Zheng, Zhanfeng Yan, Hao Wang, Qijie Feng, Xiankun Liu, Xiao Liu, Shuyu Wang, Wei Zhou, Dazhi Qian. Neutron irradiation effects of graphite serving in SPRR-300 reactor[J]. High Power Laser and Particle Beams, 2022, 34(5): 056002 Copy Citation Text show less
    References

    [1] Campbell A A, Burchell T D. Radiation effects in graphite[M]. Amsterdam: Elsevier Ltd, 2020.

    [3] Kelly B T, Jones D, James A. Irradiation damage to pile grade graphite at 450 ℃[J]. Journal of Nuclear Materials, 7, 279-291(1962).

    [4] Burchell T D, Snead L L. The effect of neutron irradiation damage on the properties of grade NBG-10 graphite[J]. Journal of Nuclear Materials, 371, 18-27(2007).

    [5] Heijna M C R, de Groot S, Vreeling J A. Comparison of irradiation behaviour of HTR graphite grades[J]. Journal of Nuclear Materials, 492, 148-156(2017).

    [6] Kelly B, Marsden B, Hall K, et al. Irradiation damage in graphite due to fast neutrons in fission fusion systems[R]. IAEATECDOC1154, 2000.

    [7] Tang Z, Hasegawa M, Shimamura T, et al. Stable vacancy clusters in neutron-irradiated graphite: evidence for aggregations with a magic number[J]. Physical Review Letters, 82, 2532-2535(1999).

    [8] Heggie M I, Suarez-Martinez I, Davidson C, et al. Buckle, ruck and tuck: a proposed new model for the response of graphite to neutron irradiation[J]. Journal of Nuclear Materials, 413, 150-155(2011).

    [10] Zhang Baoliang. Ion irradiation effects molten salt impregnation property of nuclear graphite[D]. Ji’nan: Shong University, 2015

    [13] Telling R H, Heggie M I. Radiation defects in graphite[J]. Philosophical Magazine, 87, 4797-4846(2007).

    [14] Snead L L, Burchell T D. Thermal conductivity degradation of graphites due to nuetron irradiation at low temperature[J]. Journal of Nuclear Materials, 224, 222-229(1995).

    [15] Zhou Z, Bouwman W G, Schut H, et al. Interpretation of X-ray diffraction patterns of (nuclear) graphite[J]. Carbon, 69, 17-24(2014).

    [16] Krishna R, Wade J, Jones A N, et al. An understanding of lattice strain, defects and disorder in nuclear graphite[J]. Carbon, 124, 314-333(2017).

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    Jian Zheng, Zhanfeng Yan, Hao Wang, Qijie Feng, Xiankun Liu, Xiao Liu, Shuyu Wang, Wei Zhou, Dazhi Qian. Neutron irradiation effects of graphite serving in SPRR-300 reactor[J]. High Power Laser and Particle Beams, 2022, 34(5): 056002
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