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

Publication de 4  numéros par an

ISSN Imprimer: 1093-3611

ISSN En ligne: 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

Indexed in

THE INDUCTIVELY COUPLED RADIO FREQUENCY PLASMA

Volume 1, Numéro 1, 1997, pp. 17-39
DOI: 10.1615/HighTempMatProc.v1.i1.20
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RÉSUMÉ

A review is presented of recent developments in radio frequency (r.f.) induction plasma technology. The topics covered include; plasma torch developments, fundamental studies of plasma dynamics, heat and mass transfer, plasma and particle diagnostics. Current and potential applications of induction plasma technology for materials processing are described including powder spheroidization and densification, induction plasma vacuum spraying (IPVS), induction plasma reactive deposition (IPRD) and induction plasma synthesis of ultrafine powders (UFP).

CITÉ PAR
  1. Morsli Mbark El, Proulx Pierre, Two-temperature chemically non-equilibrium modelling of anairsupersonic ICP, Journal of Physics D: Applied Physics, 40, 16, 2007. Crossref

  2. Fauchais P, Vardelle A, Pending problems in thermal plasmas and actual development, Plasma Physics and Controlled Fusion, 42, 12B, 2000. Crossref

  3. Xue Siwen, Proulx Pierre, Boulos Maher I, Modelling the effect of ferrite on an inductively coupled plasma torch: I. Infinite ferrite permeability, Journal of Physics D: Applied Physics, 35, 11, 2002. Crossref

  4. Henne R., Thermal Plasmas for Material Processing, Contributions to Plasma Physics, 39, 5, 1999. Crossref

  5. Fauchais P., Vardelle A., Thermal Spray Coatings, in Wiley Encyclopedia of Electrical and Electronics Engineering, 2007. Crossref

  6. Fauchais P, Understanding plasma spraying, Journal of Physics D: Applied Physics, 37, 9, 2004. Crossref

  7. Fauchais P, Montavon G, Lima R S, Marple B R, Engineering a new class of thermal spray nano-based microstructures from agglomerated nanostructured particles, suspensions and solutions: an invited review, Journal of Physics D: Applied Physics, 44, 9, 2011. Crossref

  8. Colombo V, Ghedini E, Sanibondi P, A three-dimensional investigation of the effects of excitation frequency and sheath gas mixing in an atmospheric-pressure inductively coupled plasma system, Journal of Physics D: Applied Physics, 43, 10, 2010. Crossref

  9. Kim K. S., Moradian A., Mostaghimi J., Soucy Gervais, Modeling of Induction Plasma Process for Fullerene Synthesis: Effect of Plasma Gas Composition and Operating Pressure, Plasma Chemistry and Plasma Processing, 30, 1, 2010. Crossref

  10. Xue Siwen, Proulx Pierre, Boulos Maher I, Modelling the effect of ferrite on an inductively coupled plasma torch: II. Finite ferrite permeability, Journal of Physics D: Applied Physics, 35, 11, 2002. Crossref

  11. Boulos M. I., Visualization and diagnostics of thermal plasma flows, Journal of Visualization, 4, 1, 2001. Crossref

  12. Xianliang Jiang, Gitzhofer F, Boulos M I, Thermal Spray Coating of Tungsten for Tokamak Device, Plasma Science and Technology, 8, 2, 2006. Crossref

  13. Morsli Mbark El, Proulx Pierre, A chemical non-equilibrium model of anairsupersonic ICP, Journal of Physics D: Applied Physics, 40, 2, 2007. Crossref

  14. Lins G., Emission Spectroscopy and Mie Scattering on an Inductively Coupled Plasma Torch, Contributions to Plasma Physics, 40, 1-2, 2000. Crossref

  15. Ye Rubin, Ishigaki Takamasa, Sakuta Tadahiro, Controlled generation of pulse-modulated RF plasmas for materials processing, Plasma Sources Science and Technology, 14, 2, 2005. Crossref

  16. Ye R., Ishigaki T., Boulos M. I., Modeling of an induction plasma under transient turbulent flow conditions, Journal of Applied Physics, 96, 1, 2004. Crossref

  17. Xianliang Jiang, Boulos Maher, Radio Frequency Induction Plasma Spraying of Molybdenum, Plasma Science and Technology, 5, 4, 2003. Crossref

  18. Fauchais P., Etchart-Salas R., Rat V., Coudert J.F., Caron N., Wittmann-Ténèze K., Parameters Controlling Liquid Plasma Spraying: Solutions, Sols, or Suspensions, Journal of Thermal Spray Technology, 17, 1, 2008. Crossref

  19. Morsli Mbark El, Proulx Pierre, Gravelle Denis, Chemical non-equilibrium modelling of an argon–oxygen supersonic ICP, Plasma Sources Science and Technology, 20, 1, 2011. Crossref

  20. Mendoza-Gonzalez N. Y., Proulx P., Goortani B., Numerical study of the synthesis of nanoparticles in an inductively coupled plasma reactor, Czechoslovak Journal of Physics, 56, S2, 2006. Crossref

  21. Fauchais Pierre, Vardelle Armelle, Thermal Plasmas Surface Treatment, in Materials Surface Processing by Directed Energy Techniques, 2006. Crossref

  22. Fauchais P., Montavon G., Plasma Spraying: From Plasma Generation to Coating Structure, in Advances in Heat Transfer Volume 40, 40, 2007. Crossref

  23. Mostaghimi Javad, Boulos Maher I., Thermal Plasma Sources: How Well are They Adopted to Process Needs?, Plasma Chemistry and Plasma Processing, 35, 3, 2015. Crossref

  24. Dhamale G. D., Mathe V. L., Bhoraskar S. V., Sahasrabudhe S. N., Ghorui S., Synthesis of nanocrystalline Y2O3 in a specially designed atmospheric pressure radio frequency thermal plasma reactor, Journal of Nanoparticle Research, 17, 10, 2015. Crossref

  25. McHenry Michael E, Willard Matthew A, Laughlin David E, Amorphous and nanocrystalline materials for applications as soft magnets, Progress in Materials Science, 44, 4, 1999. Crossref

  26. Punjabi Sangeeta B., Joshi N. K., Mangalvedekar H. A., Lande B. K., Das A. K., Kothari D. C., A comprehensive study of different gases in inductively coupled plasma torch operating at one atmosphere, Physics of Plasmas, 19, 1, 2012. Crossref

  27. Xiong Hong-Bing, Qian Li-Juan, Lin Jian-Zhong, Simulation of Effervescent Atomization and Nanoparticle Characteristics in Radio Frequency Suspension Plasma Spray, Journal of Thermal Spray Technology, 21, 2, 2012. Crossref

  28. Horikoshi Satoshi, Hidaka Hisao, Serpone Nick, Environmental remediation by an integrated microwave/UV-illumination method II., Journal of Photochemistry and Photobiology A: Chemistry, 153, 1-3, 2002. Crossref

  29. Punjabi Sangeeta B., Sahasrabudhe S. N., Joshi N. K., Mangalvedekar H. A., Das A. K., Kothari D. C., Comparative study of laminar and turbulent flow model with different operating parameters for radio frequency-inductively coupled plasma torch working at 3  MHz frequency at atmospheric pressure, Physics of Plasmas, 21, 1, 2014. Crossref

  30. Ghorui Srikumar, Sahasrabudhe Sunil, Dhamale Gayatri, Kanhe Nilesh, Mathe Vikash, Bhoraskar Sudha, Das Ashoka, Characteristics of Synthesized Alumina Nanoparticles in a High-Pressure Radio Frequency Thermal Plasma Reactor, IEEE Transactions on Plasma Science, 42, 3, 2014. Crossref

  31. Barbieri Daniela, Boselli Marco, Cavrini Francesca, Colombo Vittorio, Gherardi Matteo, Landini Maria Paola, Laurita Romolo, Liguori Anna, Stancampiano Augusto, Investigation of the antimicrobial activity at safe levels for eukaryotic cells of a low power atmospheric pressure inductively coupled plasma source, Biointerphases, 10, 2, 2015. Crossref

  32. Fauchais Pierre, Montavon Ghislain, Vardelle Michel, Cedelle Julie, Developments in direct current plasma spraying, Surface and Coatings Technology, 201, 5, 2006. Crossref

  33. Murr Lawrence E., Martinez Edwin, Amato Krista N., Gaytan Sara M., Hernandez Jennifer, Ramirez Diana A., Shindo Patrick W., Medina Frank, Wicker Ryan B., Fabrication of Metal and Alloy Components by Additive Manufacturing: Examples of 3D Materials Science, Journal of Materials Research and Technology, 1, 1, 2012. Crossref

  34. Punjabi Sangeeta B., Sahasrabudhe Sunil N., Ghorui S., Das A. K., Joshi Narendra K., Kothari Dushyant C., Ganguli Arijit A., Joshi Jyeshtharaj B., Flow and temperature patterns in an inductively coupled plasma reactor: Experimental measurements and CFD simulations, AIChE Journal, 60, 10, 2014. Crossref

  35. Yu Nan, Jourdain Renaud, Gourma Mustapha, Shore Paul, Analysis of De-Laval nozzle designs employed for plasma figuring of surfaces, The International Journal of Advanced Manufacturing Technology, 87, 1-4, 2016. Crossref

  36. Boulos Maher I., Fauchais Pierre, Pfender Emil, Basic Concepts of Plasma Generation, in Handbook of Thermal Plasmas, 2016. Crossref

  37. HORIKOSHI Satoshi, HIDAKA Hisao, Enhanced Remediation of Dyes Under Simultaneous Illumination of UV and Microwave in Aqueous TiO2 Dispersions, Journal of the Japan Society of Colour Material, 75, 4, 2002. Crossref

  38. Boulos Maher I., Fauchais Pierre, Pfender Emil, Inductively Coupled Radio Frequency Plasma Torches, in Handbook of Thermal Plasmas, 2016. Crossref

  39. Mohanta Antaryami, Lanfant Briac, Asfaha Mehari, Leparoux Marc, Methane dissociation process in inductively coupled Ar/H2/CH4 plasma for graphene nano-flakes production, Applied Physics Letters, 110, 9, 2017. Crossref

  40. Grishin Yu M, Miao Long, Numerical study of heating and evaporation processes of quartz particles in RF inductively coupled plasma, Journal of Physics: Conference Series, 830, 2017. Crossref

  41. Xue Siwen, Proulx Pierre, Boulos Maher I, Extended-field electromagnetic model for inductively coupled plasma, Journal of Physics D: Applied Physics, 34, 12, 2001. Crossref

  42. Mohanta Antaryami, Lanfant Briac, Asfaha Mehari, Leparoux Marc, Optical emission spectroscopic study of Ar/H2/CH4plasma during the production of graphene nano-flakes by induction plasma synthesis, Journal of Physics: Conference Series, 825, 2017. Crossref

  43. Dhamale G D, Tak A K, Mathe V L, Ghorui S, Nucleation and growth of Y2O3nanoparticles in a RF-ICTP reactor: a discrete sectional study based on CFD simulation supported with experiments, Journal of Physics D: Applied Physics, 51, 25, 2018. Crossref

  44. Ye R., Ishigaki T., Jurewicz J., Proulx P., Boulos M. I., In-Flight Spheroidization of Alumina Powders in Ar?H2 and Ar?N2 Induction Plasmas, Plasma Chemistry and Plasma Processing, 24, 4, 2004. Crossref

  45. Punjabi Sangeeta, Barve Dilip, Joshi Narendra, Das Asoka, Kothari Dushyant, Ganguli Arijit, Sahasrabhude Sunil, Joshi Jyeshtharaj, Computational Fluid Dynamics (CFD) Simulations and Experimental Measurements in an Inductively-Coupled Plasma Generator Operating at Atmospheric Pressure: Performance Analysis and Parametric Study, Processes, 7, 3, 2019. Crossref

  46. Boulos Maher I., Fauchais Pierre L., Pfender Emil, The Plasma State, in Handbook of Thermal Plasmas, 2016. Crossref

  47. Colombo V, Ghedini E, Gherardi M, Mani V, Sanibondi P, Vazquez B, RF thermal plasma treatment of dredged sediments: vitrification and silicon extraction, Journal of Physics: Conference Series, 406, 2012. Crossref

  48. Ravi B.G., Gandhi Ashutosh S., Guo X.Z., Margolies J., Sampath S., Liquid Precursor Plasma Spraying of Functional Materials: A Case Study for Yttrium Aluminum Garnet (YAG), Journal of Thermal Spray Technology, 17, 1, 2008. Crossref

  49. Boulos Maher I., Fauchais Pierre L., Pfender Emil, The Plasma State, in Handbook of Thermal Plasmas, 2015. Crossref

  50. Fauchais Pierre L., Heberlein Joachim V. R., Boulos Maher I., R.F. Induction Plasma Spraying, in Thermal Spray Fundamentals, 2014. Crossref

  51. Lafleur T., Corr C. S., Characterization of a radio-frequency inductively coupled electrothermal plasma thruster, Journal of Applied Physics, 130, 4, 2021. Crossref

  52. Horikoshi Satoshi, Hidaka Hisao, Serpone Nick, Environmental Remediation by an Integrated Microwave/UV Illumination Technique. 3. A Microwave-Powered Plasma Light Source and Photoreactor To Degrade Pollutants in Aqueous Dispersions of TiO2 Illuminated by the Emitted UV/Visible Radiation, Environmental Science & Technology, 36, 23, 2002. Crossref

  53. Boulos Maher I., Fauchais Pierre L., Pfender Emil, Plasma Diagnostics Lasers, Flow Visualization, and Probe Techniques, in Handbook of Thermal Plasmas, 2021. Crossref

  54. Kim Keun Su, Moradian Ala, Mostaghimi Javad, Alinejad Yasaman, Shahverdi Ali, Simard Benoit, Soucy Gervais, Synthesis of single-walled carbon nanotubes by induction thermal plasma, Nano Research, 2, 10, 2009. Crossref

  55. Tanaka Yasunori, Recent development of new inductively coupled thermal plasmas for materials processing, Advances in Physics: X, 6, 1, 2021. Crossref

  56. Ghorui Srikumar, Unique Aspects of Thermal Plasma Torches and Reactor Design for Process Applications, IEEE Transactions on Plasma Science, 49, 2, 2021. Crossref

  57. Boulos Maher I., Fauchais Pierre L., Pfender Emil, Plasma–Particle Interactions in Thermal Plasma Processing, in Handbook of Thermal Plasmas, 2021. Crossref

  58. Boulos Maher I., Fauchais Pierre, Pfender Emil, RF Inductively Coupled Plasma Torches, in Handbook of Thermal Plasmas, 2023. Crossref

  59. Cota-Sanchez German, Merlo-Sosa Laura, Nanomaterial Characterization, in Nanomaterials in the Environment, 2015. Crossref

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