Wetting properties of liquid lithium on select fusion relevant surfaces

•Liquid lithium wets W, Mo, 316 SS, Ta, and TZM at sufficiently high temperatures.•Wetting temperatures between 284°C (TZM) and 353°C (Ta) for untreated materials.•Argon GDC and lithium evaporation treatments reduce wetting temperature. Research into lithium as a plasma facing component material has...

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Bibliographic Details
Published in:Fusion engineering and design 2014-12, Vol.89 (12), p.2827-2832
Main Authors: Fiflis, P., Press, A., Xu, W., Andruczyk, D., Curreli, D., Ruzic, D.N.
Format: Article
Language:English
Subjects:
Cleaning
Contact angle
Devices
Droplets
Liquid lithium
Lithium
Plasma facing components
Thermoelectricity
Wetting
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Summary:•Liquid lithium wets W, Mo, 316 SS, Ta, and TZM at sufficiently high temperatures.•Wetting temperatures between 284°C (TZM) and 353°C (Ta) for untreated materials.•Argon GDC and lithium evaporation treatments reduce wetting temperature. Research into lithium as a plasma facing component material has illustrated its ability to engender low recycling operation at the plasma edge leading to higher energy confinement times. Introducing lithium into a practical fusion device would almost certainly require the lithium to be flowing to maintain a clean lithium surface for gettering. Several conceptual designs have been proposed, like the LiMIT concept of UIUC (Ruzic, 2011). Critical to the implementation of these devices is understanding the interactions of liquid lithium with various surfaces. For a device that relies on thermoelectric magnetohydrodynamic drive, such as the LiMIT concept, two of the critical interactions are the wetting of materials by lithium, which may be characterized by the contact angle between the lithium and the surface, and the relative thermopower between lithium and potential substrate materials. Experiments have been performed into the contact angle of liquid lithium droplets with various surfaces, as well as methods to decrease the contact angle of lithium with a given surface. The contact angle, as well as its dependence on temperature was measured. For example, at 200°C, tungsten registers a contact angle of 130°, whereas above its wetting temperature of 350°C, the contact angle is less than 80°. Glow discharge cleaning of the target surface as well as evaporation of a thin layer of liquid lithium onto the surface prior to performing wetting measurements were both found to decrease the wetting temperature.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2014.03.060