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    The investigation of plasma-induced wettability of liquid tin-capillary porous system

    New search for: Zongbiao Ye
    New search for: Xiaochun Ma
    New search for: Pingni He
    New search for: Zhijun Wang
    New search for: Qiancheng Liu
    New search for: Qiang Yan
    New search for: Jianjun Wei
    New search for: Kun Zhang
    New search for: Fujun Gou

    The bias voltage-accelerated plasma was developed to investigate the in-situ wetting between liquid tin (Sn) and capillary porous system (CPS). Low wetting temperature was achieved in comparison to traditional static method. During the plasma irradiation, the correlation among temperature step, optical emission spectrum of Sn atom and wetting phenomenon was disclosed and discussed, which could provide a hint for the wetting criterion of liquid metal-CPS. The results also showed that the wetting of Sn-CPS could maintain the liquid Sn from the MHD effect, while the liquid Sn droplet would be propelled to detach from CPS for the unwetted Sn-CPS. Keywords: Liquid tin, CPS, Wetting, Temperature step, Plasma, Optical emission spectrum

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    The investigation of plasma-induced wettability of liquid tin-capillary porous system

    New search for: Zongbiao Ye
    New search for: Xiaochun Ma
    New search for: Pingni He
    New search for: Zhijun Wang
    New search for: Qiancheng Liu
    New search for: Qiang Yan
    New search for: Jianjun Wei
    New search for: Kun Zhang
    New search for: Fujun Gou

    The bias voltage-accelerated plasma was developed to investigate the in-situ wetting between liquid tin (Sn) and capillary porous system (CPS). Low wetting temperature was achieved in comparison to traditional static method. During the plasma irradiation, the correlation among temperature step, optical emission spectrum of Sn atom and wetting phenomenon was disclosed and discussed, which could provide a hint for the wetting criterion of liquid metal-CPS. The results also showed that the wetting of Sn-CPS could maintain the liquid Sn from the MHD effect, while the liquid Sn droplet would be propelled to detach from CPS for the unwetted Sn-CPS. Keywords: Liquid tin, CPS, Wetting, Temperature step, Plasma, Optical emission spectrum

    Access

    Download

    The investigation of plasma-induced wettability of liquid tin-capillary porous system

    New search for: Zongbiao Ye
    New search for: Xiaochun Ma
    New search for: Pingni He
    New search for: Zhijun Wang
    New search for: Qiancheng Liu
    New search for: Qiang Yan
    New search for: Jianjun Wei
    New search for: Kun Zhang
    New search for: Fujun Gou

    The bias voltage-accelerated plasma was developed to investigate the in-situ wetting between liquid tin (Sn) and capillary porous system (CPS). Low wetting temperature was achieved in comparison to traditional static method. During the plasma irradiation, the correlation among temperature step, optical emission spectrum of Sn atom and wetting phenomenon was disclosed and discussed, which could provide a hint for the wetting criterion of liquid metal-CPS. The results also showed that the wetting of Sn-CPS could maintain the liquid Sn from the MHD effect, while the liquid Sn droplet would be propelled to detach from CPS for the unwetted Sn-CPS. Keywords: Liquid tin, CPS, Wetting, Temperature step, Plasma, Optical emission spectrum

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    Title:

    The investigation of plasma-induced wettability of liquid tin-capillary porous system

    Contributors:

    Zongbiao Ye (author) / Xiaochun Ma (author) / Pingni He (author) / Zhijun Wang (author) / Qiancheng Liu (author) / Qiang Yan (author) / Jianjun Wei (author) / Kun Zhang (author) / Fujun Gou (author)

    Published in:

    Nuclear Materials and Energy, Vol 20, Iss , Pp - (2019)

    Publication date:

    2019

    ISSN:

    2352-1791

    DOI:

    https://doi.org/10.1016/j.nme.2019.100694

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Nuclear engineering. Atomic power , TK9001-9401

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

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