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Experimental study on liquid metal free surface flow under magnetic and electric field for nuclear fusion

Meng, Xu ; Wang, Zenghui ; Zhang, Dengke

IOP Publishing ; 2022

In: Nuclear Fusion Vol. 62, No. 3 ( 2022-03-01), p. 036029-

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In: Nuclear Fusion, IOP Publishing, Vol. 62, No. 3 ( 2022-03-01), p. 036029-

Abstract: In the future application of nuclear fusion, the liquid metal flows are considered to be an attractive option of the first wall of the tokamak which can effectively remove impurities and improve the confinement of plasma. Moreover, the flowing liquid metal can solve the problem of the corrosion of the solid first wall due to high thermal load and particle discharge. In the magnetic confinement fusion reactor, the liquid metal flow experiences strong magnetic and electric, fields from plasma. In the present paper, an experiment has been conducted to explore the influence of electric and magnetic fields on liquid metal flow. The direction of electric current is perpendicular to that of the magnetic field direction, and thus the Lorentz force is upward or downward. A laser profilometer based on the laser triangulation technique is used to measure the thickness of the liquid film of Galinstan. The phenomenon of the liquid column from the free surface is observed by the high-speed camera under various flow rates, intensities of magnetic field and electric field. Under a constant external magnetic field, the liquid column appears at the position of the incident current once the external current exceeds a critical value, which is inversely proportional to the magnetic field. The thickness of the flowing liquid film increases with the intensities of magnetic field, electric field, and Reynolds number. The thickness of the liquid film at the incident current position reaches a maximum value when the force is upward. The distribution of liquid metal in the channel presents a parabolic shape with high central and low marginal. Additionally, the splashing, i.e. the detachment of liquid metal is not observed in the present experiment, which suggests a higher critical current for splashing to occur.

Type of Medium: Online Resource

ISSN: 0029-5515 , 1741-4326

URL: Article

DOI: 10.1088/1741-4326/ac4b9c

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2022

detail.hit.zdb_id: 2037980-8

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Fabrication of high-aspect-ratio polydimethylsiloxane microstructures by reducing the interfacial adhesion in soft lithography

Zhou, Bo ; Su, Bo ; Ta, Wurui ; [et al.]

IOP Publishing ; 2021

In: Journal of Micromechanics and Microengineering Vol. 31, No. 7 ( 2021-07-01), p. 075004-

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In: Journal of Micromechanics and Microengineering, IOP Publishing, Vol. 31, No. 7 ( 2021-07-01), p. 075004-

Abstract: The soft lithographic fabrication of high-aspect-ratio polydimethylsiloxane (PDMS) microstructures is quite challenging because of the strong interfacial adhesion between them and masters during demolding. This paper presents a simple method for fabricating high-aspect-ratio PDMS microstructures by reducing the interfacial adhesion through the cooling process. The effect of cooling process on the topography, elastic property, and adhesion property of Sylgard 184 PDMS is studied. It is found that wrinkles are formed on the surface of PDMS and that the Young’s modulus of PDMS is increased by the air cooling process. Consequently, the air-cooled PDMS has lower adhesion than the traditional oven-cooled PDMS. This result could be explained by the adhesion parameter theory: both the high amplitude of the wrinkles formed on the surface of PDMS and the high Young’s modulus of PDMS increase separation forces and reduce adhesive forces in the interface. Application of this method is demonstrated by fabricating PDMS microchannels from a silicon master which has microstructures with different aspect ratios. Compared with PDMS microchannels obtained by the oven cooling process, PDMS microchannels with a depth of 200 μ m and an aspect ratio of 10 are successfully fabricated by the air cooling process.

Type of Medium: Online Resource

ISSN: 0960-1317 , 1361-6439

URL: Article

DOI: 10.1088/1361-6439/ac00c8

RVK:

ZG 1100

Language: Unknown

Publisher: IOP Publishing

Publication Date: 2021

detail.hit.zdb_id: 1480280-6

detail.hit.zdb_id: 1069644-1

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