2022
DOI: 10.1007/s00170-022-10548-x
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Numerical analysis of direct-current (DC) plasma processing for high-efficient steel surface modification

Abstract: Nowadays, direct-current (dc) non-transferred arc plasma torch has drawn significant interest from both academia and industry due to the capability to process products in an efficient and convenient way. The core of this technology is to clarify and manipulate the arc behavior at the interior of the dc plasma torch to produce ideal plasma jets for processing. To solve this problem, a quasi-steady axisymmetric model is built to simulate and compare the arc characteristics in different operating conditions and d… Show more

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Cited by 5 publications
(2 citation statements)
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“…Plasma can be generated by imparting energy to neutral gas, leading to the reorganization of its electronic structure [8]. Various methods utilizing different energy supplies, such as thermal [8], electric current [9][10][11][12][13][14], or electromagnetic radiation [1,[15][16][17][18][19], have been employed to achieve plasma generation. Technically, under the influence of external input energy, when the energy of molecular thermal kinetic motion reaches that required for gas ionization, abundant ionization events occur through collisions with neutral gas particles.…”
Section: Plasma Fundamentalsmentioning
confidence: 99%
See 1 more Smart Citation
“…Plasma can be generated by imparting energy to neutral gas, leading to the reorganization of its electronic structure [8]. Various methods utilizing different energy supplies, such as thermal [8], electric current [9][10][11][12][13][14], or electromagnetic radiation [1,[15][16][17][18][19], have been employed to achieve plasma generation. Technically, under the influence of external input energy, when the energy of molecular thermal kinetic motion reaches that required for gas ionization, abundant ionization events occur through collisions with neutral gas particles.…”
Section: Plasma Fundamentalsmentioning
confidence: 99%
“…(2.2) Re = uL Recent studies [111] have highlighted that the region near the electrode in arc plasma is not fully in the LTE state because of the relatively low electrical conductivity caused by some factors, such as the cooling effect from the electrode cooling system and complex physical processes, such as the plasma sheath adjacent to the electrode surface. To enhance the accuracy of arc plasma generation simulation modeling within the LTE assumption, researchers tend to define a local thin layer (sheath layer) near the electrode with constant electrical conductivity as a complement [14]. This modification not only retains the advantages of lower computational cost with the LTE assumption but also improves the prediction precision of the arc root near the anode.…”
Section: Thermal Plasma Generation Modelingmentioning
confidence: 99%