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    Comparison of deuterium retention in tungsten exposed to deuterium plasma and gas

    New search for: Xiaoqiu Ye
    New search for: Wei Wang
    New search for: Qifa Pan
    New search for: Chunli Jiang
    New search for: Yifang Wang
    New search for: Xiaohong Chen
    New search for: Jiliang Wu
    New search for: Changan Chen

    Deuterium (D) retention behavior in tungsten (W) exposed to D plasma and D2 gas was studied by means of thermal desorption spectroscopy (TDS): D plasma exposure in which W was exposed to D plasma with 35 eV/D+ at 393 K for 0.5 h to the fluence of 3.8 × 1024 D/m2; D2 gas charging in which W was exposed to D2 gas of 500 kPa at 773 K for 4 h. TDS shows that the total D retention in plasma exposure W is ~1022 D/m2, two orders of magnitude higher than that of gas charging W; however, the D2 desorption peak of gas charging W is 952 K, much higher than 691 K of plasma exposure W at the heating rate of 20 K/min. The detrapping energies of deuterium were determined experimentally from the measured peak temperatures at different heating rates and were found to be 2.17 eV for the gas charging W and 1.04 eV for the plasma exposure W, respectively.

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    Comparison of deuterium retention in tungsten exposed to deuterium plasma and gas

    New search for: Xiaoqiu Ye
    New search for: Wei Wang
    New search for: Qifa Pan
    New search for: Chunli Jiang
    New search for: Yifang Wang
    New search for: Xiaohong Chen
    New search for: Jiliang Wu
    New search for: Changan Chen

    Deuterium (D) retention behavior in tungsten (W) exposed to D plasma and D2 gas was studied by means of thermal desorption spectroscopy (TDS): D plasma exposure in which W was exposed to D plasma with 35 eV/D+ at 393 K for 0.5 h to the fluence of 3.8 × 1024 D/m2; D2 gas charging in which W was exposed to D2 gas of 500 kPa at 773 K for 4 h. TDS shows that the total D retention in plasma exposure W is ~1022 D/m2, two orders of magnitude higher than that of gas charging W; however, the D2 desorption peak of gas charging W is 952 K, much higher than 691 K of plasma exposure W at the heating rate of 20 K/min. The detrapping energies of deuterium were determined experimentally from the measured peak temperatures at different heating rates and were found to be 2.17 eV for the gas charging W and 1.04 eV for the plasma exposure W, respectively.

    Access

    Download

    Comparison of deuterium retention in tungsten exposed to deuterium plasma and gas

    New search for: Xiaoqiu Ye
    New search for: Wei Wang
    New search for: Qifa Pan
    New search for: Chunli Jiang
    New search for: Yifang Wang
    New search for: Xiaohong Chen
    New search for: Jiliang Wu
    New search for: Changan Chen

    Deuterium (D) retention behavior in tungsten (W) exposed to D plasma and D2 gas was studied by means of thermal desorption spectroscopy (TDS): D plasma exposure in which W was exposed to D plasma with 35 eV/D+ at 393 K for 0.5 h to the fluence of 3.8 × 1024 D/m2; D2 gas charging in which W was exposed to D2 gas of 500 kPa at 773 K for 4 h. TDS shows that the total D retention in plasma exposure W is ~1022 D/m2, two orders of magnitude higher than that of gas charging W; however, the D2 desorption peak of gas charging W is 952 K, much higher than 691 K of plasma exposure W at the heating rate of 20 K/min. The detrapping energies of deuterium were determined experimentally from the measured peak temperatures at different heating rates and were found to be 2.17 eV for the gas charging W and 1.04 eV for the plasma exposure W, respectively.

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    Title:

    Comparison of deuterium retention in tungsten exposed to deuterium plasma and gas

    Contributors:

    Xiaoqiu Ye (author) / Wei Wang (author) / Qifa Pan (author) / Chunli Jiang (author) / Yifang Wang (author) / Xiaohong Chen (author) / Jiliang Wu (author) / Changan Chen (author)

    Published in:

    Nuclear Materials and Energy, Vol 24, Iss , Pp 100775- (2020)

    Publication date:

    2020

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2020.100775

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Tungsten , Deuterium retention , Gas-charging , Plasma exposure , Thermal desorption spectroscopy , Nuclear engineering. Atomic power , TK9001-9401

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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