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Influence of Plasma Parameters on Light Emission in GD-OES Analysis of Ni–Cu System

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the present work, an effect of plasma-forming parameters on light emission during analysis by glow discharge optical emission spectrometry of Ni–Cu model alloys is studied. To evaluate the effects of plasma-forming parameters on light emission, argon pressure was varied in the range between 600 Pa and 1000 Pa under a constant power of 20 W. Moreover, a variation of power at 20 W and 30 W under a constant Ar pressure of 1000 Pa was investigated. An effect of the element content on light emission was found. Namely, for Cu, a monotonic, non-linear increase in measured light intensity with an increasing Cu content was found. Surprisingly, for pure Ni, a lower light intensity was measured as for Ni90–Cu10 (at.%). Possible reasons causing this was listed as: (i) possible effect of hydrogen, (ii) overlapping of lines for Cu and Ni and (iii) self-absorbing of Ni line at 341.574 nm.
Rocznik
Strony
21--27
Opis fizyczny
Bibliogr. 25 poz., rys., tab., wykr.
Twórcy
  • Department of Materials Science, Faculty of Mechanical Engineering and Aeronautics, Rzeszow University of Technology, al. Powstancow Warszawy 12, 35-959 Rzeszow, Poland
  • Department of Materials Science, Faculty of Mechanical Engineering and Aeronautics, Rzeszow University of Technology, al. Powstancow Warszawy 12, 35-959 Rzeszow, Poland
Bibliografia
  • [1] M.R. WINCHESTER, R. PAYLING: Radio-frequency glow discharge spectrometry: A critical review, Spectrochim. Acta Part B., 50(2004), 607-666.
  • [2] K. SHIMIZU, H. HABAZAKI, P. SKELDON, G.E. THOMPSON: Radiofrequency GDOES: A powerful technique for depth profiling analysis of thin films. Surf. Interface Anal., 35(2003), 564-574, DOI:10.1002/sia.1572.
  • [3] J.W. COBURN, E. TAGLAUER, E. KAY: Glow-discharge mass spectrometry – Technique for determining elemental composition profiles in solids. J. Appl. Phys., 45(1974), 1779-1786.
  • [4] D.L. DONOHUE, W.W. HARRISON: Radiofrequency cavity ion source in solids mass spectrometry. Anal. Chem., 45(1975), 1528-1531.
  • [5] M.R. WINCHESTER, C. LAZIK, R.K. MARCUS: Characterization of a radio frequency glow discharge emission source. Spectrochim. Acta, B, 46(1991), 483-499.
  • [6] W.J. NOWAK, et al.: Water vapour effect on high temperature oxidation behaviour of superalloy Rene 80. Adv. Manuf. Sci. Technol., 40(2016)2, 41-52, DOI:10.2478/amst-2016-0009.
  • [7] W.J. NOWAK, P. WIERZBA, B. WIERZBA, J. SIENIAWSKI: Oxide scale formation on in 792 at early stages of high temperature exposure. Adv. Manuf. Sci. Technol., 41(2017)1, 65-74, DOI:10.2478/amst-2017-0006.
  • [8] A. JALOWICKA, et al.: Boron depletion in a nickel base superalloy induced by high temperature oxidation. Oxid. Met., 83(2015)3-4, 393-413.
  • [9] W. NOWAK, et al.: Effect of oxide scale composition on boron depletion of Ni-base superalloys. Mater. Corros., 68(2017)2, 171-185.
  • [10] R. PILLAI, et al.: Carbides in an aluminised single crystal superalloy: Tracing the source of carbon. Surf. Coat. Technol., 288(2016), 15-24.
  • [11] A. CHYRKIN, et al.: Modeling carbide dissolution in alloy 602 CA during high temperature oxidation. Corros. Sci., 96(2015), 32-41.
  • [12] A. JALOWICKA, W.J. NOWAK, D. NAUMENKO, W.J. QUADAKKERS: Effect of SO2 addition on air oxidation behavior of CM247 and CMSX-4 at 1050°C. J. Met., 68(2016), 2776–2785.
  • [13] P. HUCZKOWSKI, et al.: Effect of SO2 on oxidation of metallic materials in CO2/H2O-rich gases relevant to oxyfuel environments. Mater. Corros., 65(2014)2, 121-131.
  • [14] A. JALOWICKA, et al.: Effect of nickel base superalloys composition on oxidation resistance in SO2 containing, high pO2 environments, Mater. Corros., 65(2014)2, 178-187.
  • [15] W.J. NOWAK: Characterization of oxidized Ni-base superalloys by GD-OES. JAAS, 32(2017), 1730-1738.
  • [16] W.J. NOWAK, et al.: Effect of substrate roughness on oxidation resistance of an aluminized ni-base superalloy. Metals, 9(2019), 782-795.
  • [17] E. HEJRANI, et al.: Isothermal and cyclic oxidation behavior of free standing MCrAlY coatings manufactured by high-velocity atmospheric plasma spraying. Surf. Coat. Technol., 313(2017), 191-201.
  • [18] T. NELIS, R. PAYLING: Practical guide to glow discharge optical emission spectrometry. Royal Society of Chemistry, Cambridge, UK, 2003.
  • [19] C. GONZALEZ-GAGO, et al.: The use of matrix-specific calibrations for oxygen in analytical glow discharge spectrometry. Anal. Bioanal. Chem., 406(2014), 7473-7482.
  • [20] Z. WEISS: Calibration methods in glow discharge optical emission spectrometry: A tutorial review. J. Anal. At. Spectrom., 30(2015), 1038-1049.
  • [21] J.P. PFEIFER, H. HOLZBRECHER, W.J. QUADAKKERS, J. SPEIER: Quantitative analysis of oxide films on ODS*-alloys using MCs+-SIMS and e-Beam SNMS**. J. Anal. Chem., 346(1993), 86-191.
  • [22] W.J. QUADAKKERS, A. ELSCHNER, W. SPEIER, H. NICKEL: Composition and growth mechanisms of alumina scales on FeCrAl-based alloys determined by SNMS. App. Surf. Sci., 52(1991), 271-287.
  • [23] R. PAYLING, M. AEBERHARD, D. DELFOSSE: Improved quantitative analysis of hard coatings by radiofrequency glow discharge optical emission spectrometry (rf-GD-OES). J. Anal. At. Spectrom., 16(2001), 50-55, DOI:10.1039/b007543o.
  • [24] V.-D. HODOROABA, V. HOFFMANN, E.B.M. STEERS, K. WETZIG: Investigations of the effect of hydrogen in an argon glow discharge. J. Anal. At. Spectrom., 15(2000), 1075-1080, DOI:10.1039/B002367L.
  • [25] R. PAYLING, P.L. LARKINS: Optical emission lines of the elements. John Wiley and Sons, 2000, ISBN-13: 978-0471623786.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-df7e9578-a2df-4ca7-a4a4-6021b1e53003
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