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High Temperature Material Processes: An International Quarterly of High-Technology Plasma Processes

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ISSN Print: 1093-3611

ISSN Online: 1940-4360

The Impact Factor measures the average number of citations received in a particular year by papers published in the journal during the two preceding years. 2017 Journal Citation Reports (Clarivate Analytics, 2018) IF: 0.4 The Immediacy Index is the average number of times an article is cited in the year it is published. The journal Immediacy Index indicates how quickly articles in a journal are cited. Immediacy Index: 0.1 The Eigenfactor score, developed by Jevin West and Carl Bergstrom at the University of Washington, is a rating of the total importance of a scientific journal. Journals are rated according to the number of incoming citations, with citations from highly ranked journals weighted to make a larger contribution to the eigenfactor than those from poorly ranked journals. Eigenfactor: 0.00005 The Journal Citation Indicator (JCI) is a single measurement of the field-normalized citation impact of journals in the Web of Science Core Collection across disciplines. The key words here are that the metric is normalized and cross-disciplinary. JCI: 0.07 SJR: 0.198 SNIP: 0.48 CiteScore™:: 1.1 H-Index: 20

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SURFACE ALLOYING OF METALS USING A QUASI-STATIONARY PLASMA ACCELERATOR

Volume 11, Issue 3, 2007, pp. 383-391
DOI: 10.1615/HighTempMatProc.v11.i3.60
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ABSTRACT

The main regularities of Al and Ni surface alloying by means of compression plasma flows treatment of Ti/Al and Zr/Ni (coating/substrate) systems were investigated in this work. X-Ray diffraction, Rutherford backscattering and scanning electron microscopy were used as investigation techniques. It was found that a mixed layer contained intermetallides (Al3Ti, Al2Ti or Ni5Zr) and nitrides (AlN, TiN or ZrN) providing microhardness increase. The phase composition of the mixed layer is correlated with the phase composition given by the equilibrium phase diagram. Thus, compression plasma flows can be effectively used for the predictable formation of a variety of alloys in the surface layer of metals by means of “coating/substrate” system treatment.

CITED BY
  1. Uglov V. V., Kvasov N. T., Petukhov Yu. A., Astashinskii V. M., Kuz’minskii A. M., Phase formation and structural changes in the chromium-silicon system exposed to compressed plasma fluxes, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 4, 2, 2010. Crossref

  2. Uglov V.V., Anishchik V.M., Kvasov N.T., Petukhou Yu.A., Astashynski V.M., Kuzmitski A.M., Structural and phase changes in iron-on-silicon treated by compression plasma flows, Vacuum, 83, 9, 2009. Crossref

  3. Uglov V. V., Kvasov N. T., Petukhov Yu. A., Koval’ N. N., Ivanov Yu. F., Teresov A. D., Structure and phase composition of a chromium-silicon system modified by high-current electron beams, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 6, 1, 2012. Crossref

  4. SARI A. H., ASTASHYNSKI V. M., KUZMITSKI A. M., PETUKHOU Yu. A., UGLOV V. V., NANO-SIZED SPHERICAL CLUSTERS OF TANTALUM SILICIDE FORMED BY COMPRESSION PLASMA FLOW, Physics, Chemistry and Applications of Nanostructures, 2013. Crossref

  5. Koval N. N., Ivanov Yu. F., Teresov A. D., Denisova Yu. A., Petrikova E. A., Pulsed-Electron-Beam Processing of Materials for Medical Applications, Russian Physics Journal, 56, 10, 2014. Crossref

  6. Sari Amir Hosein, Astashynski Valentin Mironovich, Kuzmitski Anton Mikhailovich, Petukhov Yury Aliaksandravich, Uglov Vladimir Vasilevich, Phase transformations in Ta-Si system induced by compression plasma flow, The European Physical Journal Applied Physics, 65, 1, 2014. Crossref

  7. Giovannini A Z, Barendregt I, Haslinde T, Hubbs C, Abhari R S, Self-confined plasma in a magneto-plasma compressor and the influence of an externally imposed magnetic field, Plasma Sources Science and Technology, 24, 2, 2015. Crossref

  8. Shymanski V.I., Cherenda N.N., Uglov V.V., Astashynski V.M., Kuzmitski A.M., Structure and phase composition of Nb/Ti system subjected to compression plasma flow impact, Surface and Coatings Technology, 278, 2015. Crossref

  9. Sari A.H., Astashynski V.M., Kostyukevich E.A., Uglov V.V., Cherenda N.N., Alloying of austenitic steel surface with zirconium using nitrogen compression plasma flow, Vacuum, 115, 2015. Crossref

  10. Shin V. I., Moskvin P. V., Vorobyev M. S., Devyatkov V. N., Doroshkevich S. Yu., Koval’ N. N., Increasing the Electrical Strength of the Accelerating Gap in an Electron Source with a Plasma Cathode, Instruments and Experimental Techniques, 64, 2, 2021. Crossref

  11. Shin V I, Moskvin P V, Vorobyov M S, Devyatkov V N, Doroshkevich S Yu, The deflection of a wide electron beam from the longitudinal axis of the source with a plasma cathode and plasma anode, Journal of Physics: Conference Series, 1393, 1, 2019. Crossref

  12. Vorobyov M S, Koval N N, Moskvin P V, Teresov A D, Doroshkevich S Yu, Yakovlev V V, Shin V I, Electron beam generation with variable current amplitude during its pulse in a source with a grid plasma cathode, Journal of Physics: Conference Series, 1393, 1, 2019. Crossref

  13. Moskvin P.V., Devyatkov V.N., Vorobyov M.S., Shin V.I., Lopatin I.V., Koval N.N., Doroshkevich S.Yu., Torba M.S., Electron beam generation in an arc plasma source with an auxiliary anode plasma, Vacuum, 191, 2021. Crossref

  14. Vorobyov M. S., Moskvin P. V., Shin V. I., Koval N. N., Ashurova K. T., Doroshkevich S. Yu., Devyatkov V. N., Torba M. S., Levanisov V. A., Dynamic Power Control of a Submillisecond Pulsed Megawatt Electron Beam in a Source with a Plasma Cathode, Technical Physics Letters, 47, 7, 2021. Crossref

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