Standard

Development of new plasma technology methods in synthetic materials production and research. / Popova, Anna N.; Kison, Viktoriia E.; Sukhomlinov, Vladimir S.; Mustafaev, Alexandr S.

Advanced Materials in Industrial and Environmental Engineering II. ed. / Viktor Bolobov; Vladimir Bazhin; Vyacheslav Maksarov; Nikita V. Martyushev. Trans Tech Publications Ltd, 2021. p. 87-93 (Materials Science Forum; Vol. 1040 MSF).

Research output: Chapter in Book/Report/Conference proceedingConference contributionResearchpeer-review

Harvard

Popova, AN, Kison, VE, Sukhomlinov, VS & Mustafaev, AS 2021, Development of new plasma technology methods in synthetic materials production and research. in V Bolobov, V Bazhin, V Maksarov & NV Martyushev (eds), Advanced Materials in Industrial and Environmental Engineering II. Materials Science Forum, vol. 1040 MSF, Trans Tech Publications Ltd, pp. 87-93, Conference on Nanophysics and Nanomaterials, NaN 2020, St. Petersburg, Russian Federation, 25/11/20. https://doi.org/10.4028/www.scientific.net/msf.1040.87

APA

Popova, A. N., Kison, V. E., Sukhomlinov, V. S., & Mustafaev, A. S. (2021). Development of new plasma technology methods in synthetic materials production and research. In V. Bolobov, V. Bazhin, V. Maksarov, & N. V. Martyushev (Eds.), Advanced Materials in Industrial and Environmental Engineering II (pp. 87-93). (Materials Science Forum; Vol. 1040 MSF). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/msf.1040.87

Vancouver

Popova AN, Kison VE, Sukhomlinov VS, Mustafaev AS. Development of new plasma technology methods in synthetic materials production and research. In Bolobov V, Bazhin V, Maksarov V, Martyushev NV, editors, Advanced Materials in Industrial and Environmental Engineering II. Trans Tech Publications Ltd. 2021. p. 87-93. (Materials Science Forum). https://doi.org/10.4028/www.scientific.net/msf.1040.87

Author

Popova, Anna N. ; Kison, Viktoriia E. ; Sukhomlinov, Vladimir S. ; Mustafaev, Alexandr S. / Development of new plasma technology methods in synthetic materials production and research. Advanced Materials in Industrial and Environmental Engineering II. editor / Viktor Bolobov ; Vladimir Bazhin ; Vyacheslav Maksarov ; Nikita V. Martyushev. Trans Tech Publications Ltd, 2021. pp. 87-93 (Materials Science Forum).

BibTeX

@inproceedings{cae38d8b8f6b4051984ac4088afd1933,
title = "Development of new plasma technology methods in synthetic materials production and research",
abstract = "This paper presents the results of the application of new unique techniques based on plasma nanotechnology in metallurgy and materials science. In recent years, a team of authors have developed the solutions for extraordinary problems arising in the conditions of metallurgical enterprises related to the production of synthetic materials and control of manufactured products, namely, the methods for the production of various structural materials and optimization of methods for their non-destructive testing by atomic emission spectral analysis (AESA). The paper points out some aspects of ongoing research, in particular, an innovative technique that allows obtaining ultrapure samples of white corundum by plasma melting of alumina in a reactor. This method also allows obtaining ultrapure aluminum at the output, which can be used for the purposes of hydrogen energy. In the course of the research, the criteria for thermal protection, temperature conditions and optimal parameters of the plasmatron were determined. In order to carry out the studies of metals and alloys by AESA method, a new global analytical method was developed, which made it possible to take into account the influence of various important parameters, including third elements, background plasma radiation, etc. This method has been preliminary tested on emission spectrometers made in Russia and can significantly reduce the error in the determination of low concentrations of elements. In addition to the consideration of these parameters, the method makes it possible to perform high-precision calibration of atomic emission spectrometers of the same type (produced in series), using not a set of several tens of approved standard samples, but only two standard samples. For each area, patent applications were formed and filed.",
keywords = "Aluminum, Calibration, Metals and alloys, Plasma atomic emission spectrometry, Plasma nanotechnologies, Plasmatron, Spark excitation of spectrum, Synthetic materials, Ultrapure corundum",
author = "Popova, {Anna N.} and Kison, {Viktoriia E.} and Sukhomlinov, {Vladimir S.} and Mustafaev, {Alexandr S.}",
note = "Publisher Copyright: {\textcopyright} 2021 Trans Tech Publications Ltd, Switzerland.; Conference on Nanophysics and Nanomaterials, NaN 2020 ; Conference date: 25-11-2020 Through 26-11-2020",
year = "2021",
month = jul,
day = "27",
doi = "10.4028/www.scientific.net/msf.1040.87",
language = "English",
isbn = "9783035718959",
series = "Materials Science Forum",
publisher = "Trans Tech Publications Ltd",
pages = "87--93",
editor = "Viktor Bolobov and Vladimir Bazhin and Vyacheslav Maksarov and Martyushev, {Nikita V.}",
booktitle = "Advanced Materials in Industrial and Environmental Engineering II",
address = "Germany",

}

RIS

TY - GEN

T1 - Development of new plasma technology methods in synthetic materials production and research

AU - Popova, Anna N.

AU - Kison, Viktoriia E.

AU - Sukhomlinov, Vladimir S.

AU - Mustafaev, Alexandr S.

N1 - Publisher Copyright: © 2021 Trans Tech Publications Ltd, Switzerland.

PY - 2021/7/27

Y1 - 2021/7/27

N2 - This paper presents the results of the application of new unique techniques based on plasma nanotechnology in metallurgy and materials science. In recent years, a team of authors have developed the solutions for extraordinary problems arising in the conditions of metallurgical enterprises related to the production of synthetic materials and control of manufactured products, namely, the methods for the production of various structural materials and optimization of methods for their non-destructive testing by atomic emission spectral analysis (AESA). The paper points out some aspects of ongoing research, in particular, an innovative technique that allows obtaining ultrapure samples of white corundum by plasma melting of alumina in a reactor. This method also allows obtaining ultrapure aluminum at the output, which can be used for the purposes of hydrogen energy. In the course of the research, the criteria for thermal protection, temperature conditions and optimal parameters of the plasmatron were determined. In order to carry out the studies of metals and alloys by AESA method, a new global analytical method was developed, which made it possible to take into account the influence of various important parameters, including third elements, background plasma radiation, etc. This method has been preliminary tested on emission spectrometers made in Russia and can significantly reduce the error in the determination of low concentrations of elements. In addition to the consideration of these parameters, the method makes it possible to perform high-precision calibration of atomic emission spectrometers of the same type (produced in series), using not a set of several tens of approved standard samples, but only two standard samples. For each area, patent applications were formed and filed.

AB - This paper presents the results of the application of new unique techniques based on plasma nanotechnology in metallurgy and materials science. In recent years, a team of authors have developed the solutions for extraordinary problems arising in the conditions of metallurgical enterprises related to the production of synthetic materials and control of manufactured products, namely, the methods for the production of various structural materials and optimization of methods for their non-destructive testing by atomic emission spectral analysis (AESA). The paper points out some aspects of ongoing research, in particular, an innovative technique that allows obtaining ultrapure samples of white corundum by plasma melting of alumina in a reactor. This method also allows obtaining ultrapure aluminum at the output, which can be used for the purposes of hydrogen energy. In the course of the research, the criteria for thermal protection, temperature conditions and optimal parameters of the plasmatron were determined. In order to carry out the studies of metals and alloys by AESA method, a new global analytical method was developed, which made it possible to take into account the influence of various important parameters, including third elements, background plasma radiation, etc. This method has been preliminary tested on emission spectrometers made in Russia and can significantly reduce the error in the determination of low concentrations of elements. In addition to the consideration of these parameters, the method makes it possible to perform high-precision calibration of atomic emission spectrometers of the same type (produced in series), using not a set of several tens of approved standard samples, but only two standard samples. For each area, patent applications were formed and filed.

KW - Aluminum

KW - Calibration

KW - Metals and alloys

KW - Plasma atomic emission spectrometry

KW - Plasma nanotechnologies

KW - Plasmatron

KW - Spark excitation of spectrum

KW - Synthetic materials

KW - Ultrapure corundum

UR - http://www.scopus.com/inward/record.url?scp=85116645879&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/423fc956-e08c-33e1-b803-66636f2897f9/

U2 - 10.4028/www.scientific.net/msf.1040.87

DO - 10.4028/www.scientific.net/msf.1040.87

M3 - Conference contribution

AN - SCOPUS:85116645879

SN - 9783035718959

T3 - Materials Science Forum

SP - 87

EP - 93

BT - Advanced Materials in Industrial and Environmental Engineering II

A2 - Bolobov, Viktor

A2 - Bazhin, Vladimir

A2 - Maksarov, Vyacheslav

A2 - Martyushev, Nikita V.

PB - Trans Tech Publications Ltd

T2 - Conference on Nanophysics and Nanomaterials, NaN 2020

Y2 - 25 November 2020 through 26 November 2020

ER -

ID: 87768860