Current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding
Many papers have sought correlations between the parameters of secondary particles generated above the beam/work piece interaction zone, dynamics of processes in the keyhole, and technological processes. Low- and high-frequency oscillations of the current, collected by plasma have been observed abov...
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| Series: | AIP Advances |
| Online Access: | http://dx.doi.org/10.1063/1.4870944 |
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doaj-6e9039f2fc32433b961d5dfa742b59bc2020-11-25T00:06:17ZengAIP Publishing LLCAIP Advances2158-32262014-04-0144047105047105-1010.1063/1.4870944005404ADVCurrent-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam weldingD. N. Trushnikov0G. M. Mladenov1V. Ya. Belenkiy2E. G. Koleva3S. V. Varushkin4The department for Applied Physics, Perm National Research Polytechnic University, Perm, 614990, Russian FederationInstitute of Electronics, Bulgarian Academy of Sciences, 72 Tzarigradsko Shose, 1784, Sofia, BulgariaThe department for Welding Production and Technology of Constructional Materials, Perm National Research Polytechnic University, Perm, 614990, Russian FederationInstitute of Electronics, Bulgarian Academy of Sciences, 72 Tzarigradsko Shose, 1784, Sofia, BulgariaThe department for Welding Production and Technology of Constructional Materials, Perm National Research Polytechnic University, Perm, 614990, Russian FederationMany papers have sought correlations between the parameters of secondary particles generated above the beam/work piece interaction zone, dynamics of processes in the keyhole, and technological processes. Low- and high-frequency oscillations of the current, collected by plasma have been observed above the welding zone during electron beam welding. Low-frequency oscillations of secondary signals are related to capillary instabilities of the keyhole, however; the physical mechanisms responsible for the high-frequency oscillations (>10 kHz) of the collected current are not fully understood. This paper shows that peak frequencies in the spectra of the collected high-frequency signal are dependent on the reciprocal distance between the welding zone and collector electrode. From the relationship between current harmonics frequency and distance of the collector/welding zone, it can be estimated that the draft velocity of electrons or phase velocity of excited waves is about 1600 m/s. The dispersion relation with the properties of ion-acoustic waves is related to electron temperature 10 000 K, ion temperature 2 400 K and plasma density 1016 m−3, which is analogues to the parameters of potential-relaxation instabilities, observed in similar conditions. The estimated critical density of the transported current for creating the anomalous resistance state of plasma is of the order of 3 A·m−2, i.e. 8 mA for a 3–10 cm2 collector electrode. Thus, it is assumed that the observed high-frequency oscillations of the current collected by the positive collector electrode are caused by relaxation processes in the plasma plume above the welding zone, and not a direct demonstration of oscillations in the keyhole.http://dx.doi.org/10.1063/1.4870944 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
D. N. Trushnikov G. M. Mladenov V. Ya. Belenkiy E. G. Koleva S. V. Varushkin |
| spellingShingle |
D. N. Trushnikov G. M. Mladenov V. Ya. Belenkiy E. G. Koleva S. V. Varushkin Current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding AIP Advances |
| author_facet |
D. N. Trushnikov G. M. Mladenov V. Ya. Belenkiy E. G. Koleva S. V. Varushkin |
| author_sort |
D. N. Trushnikov |
| title |
Current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding |
| title_short |
Current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding |
| title_full |
Current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding |
| title_fullStr |
Current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding |
| title_full_unstemmed |
Current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding |
| title_sort |
current-driven ion-acoustic and potential-relaxation instabilities excited in plasma plume during electron beam welding |
| publisher |
AIP Publishing LLC |
| series |
AIP Advances |
| issn |
2158-3226 |
| publishDate |
2014-04-01 |
| description |
Many papers have sought correlations between the parameters of secondary particles generated above the beam/work piece interaction zone, dynamics of processes in the keyhole, and technological processes. Low- and high-frequency oscillations of the current, collected by plasma have been observed above the welding zone during electron beam welding. Low-frequency oscillations of secondary signals are related to capillary instabilities of the keyhole, however; the physical mechanisms responsible for the high-frequency oscillations (>10 kHz) of the collected current are not fully understood. This paper shows that peak frequencies in the spectra of the collected high-frequency signal are dependent on the reciprocal distance between the welding zone and collector electrode. From the relationship between current harmonics frequency and distance of the collector/welding zone, it can be estimated that the draft velocity of electrons or phase velocity of excited waves is about 1600 m/s. The dispersion relation with the properties of ion-acoustic waves is related to electron temperature 10 000 K, ion temperature 2 400 K and plasma density 1016 m−3, which is analogues to the parameters of potential-relaxation instabilities, observed in similar conditions. The estimated critical density of the transported current for creating the anomalous resistance state of plasma is of the order of 3 A·m−2, i.e. 8 mA for a 3–10 cm2 collector electrode. Thus, it is assumed that the observed high-frequency oscillations of the current collected by the positive collector electrode are caused by relaxation processes in the plasma plume above the welding zone, and not a direct demonstration of oscillations in the keyhole. |
| url |
http://dx.doi.org/10.1063/1.4870944 |
| work_keys_str_mv |
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