Effect of Oxygen Ion Implantation on Physicochemical Structure and Corrosion-Electrochemical Behavior of Copper–Manganese Alloy
The chemical composition and structure of the Cu–Mn alloy after modification with oxygen ions with an energy of 10–30 keV and a dose of 10 17 cm –2 have been investigated. Changes in the type of chemical bonding and atomic structure in irradiated Cu–Mn samples have been studied by X-ray photoelectro...
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| Published in | Inorganic materials : applied research Vol. 12; no. 3; pp. 581 - 587 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Moscow
Pleiades Publishing
01.05.2021
Springer Nature B.V |
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| Abstract | The chemical composition and structure of the Cu–Mn alloy after modification with oxygen ions with an energy of 10–30 keV and a dose of 10
17
cm
–2
have been investigated. Changes in the type of chemical bonding and atomic structure in irradiated Cu–Mn samples have been studied by X-ray photoelectron spectroscopy and X-ray diffraction. Electrochemical studies of ion-modified surfaces have been performed by measuring the anodic potentiodynamic polarization curves in a neutral borate buffer solution, hydrochloric acid, and potassium hydroxide. |
|---|---|
| AbstractList | The chemical composition and structure of the Cu–Mn alloy after modification with oxygen ions with an energy of 10–30 keV and a dose of 10
17
cm
–2
have been investigated. Changes in the type of chemical bonding and atomic structure in irradiated Cu–Mn samples have been studied by X-ray photoelectron spectroscopy and X-ray diffraction. Electrochemical studies of ion-modified surfaces have been performed by measuring the anodic potentiodynamic polarization curves in a neutral borate buffer solution, hydrochloric acid, and potassium hydroxide. The chemical composition and structure of the Cu–Mn alloy after modification with oxygen ions with an energy of 10–30 keV and a dose of 1017 cm–2 have been investigated. Changes in the type of chemical bonding and atomic structure in irradiated Cu–Mn samples have been studied by X-ray photoelectron spectroscopy and X-ray diffraction. Electrochemical studies of ion-modified surfaces have been performed by measuring the anodic potentiodynamic polarization curves in a neutral borate buffer solution, hydrochloric acid, and potassium hydroxide. |
| Author | Kolotov, A. A. Gilmutdinov, F. Z. Bakieva, O. R. Reshetnikov, S. M. Borisova, E. M. Vorobiev, V. L. Averkiev, I. K. |
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| Copyright | Pleiades Publishing, Ltd. 2021. ISSN 2075-1133, Inorganic Materials: Applied Research, 2021, Vol. 12, No. 3, pp. 581–587. © Pleiades Publishing, Ltd., 2021. Russian Text © The Author(s), 2020, published in Fizika i Khimiya Obrabotki Materialov, 2020, No. 1, pp. 5–13. |
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| Keywords | atomic structure Cu–Mn alloy oxides surface oxygen implantation electrochemical corrosion chemical structure |
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| References | Tomashov, N.D. and Chernova, G.P., Teoriya korrozii i korrozionnostoikie konstruktsionnye splavy (Theory of Corrosion and Corrosion-Resistant Structural Alloys), Moscow: Metallurgiya, 1993. HoffinanM.R.LimB.C.Kinetics and mechanism of the oxidation of sulfide by oxygen: Catalysis by homogeneous metal-phthalocyanine complexesEnviron. Sci. Technol.1979131406141410.1021/es60159a014 Reshetnikov, S.M., Gil’mutdinov, F.Z., Borisova, E.M., Bakieva, O.R., and Vorob’ev, V.L., Effect of oxygen implantation of corrosion-electrochemical properties of copper, Korroz.: Mater. Zashchit., 2017, no. 9, pp. 21–30. Corrosion, Shreir, L.L., Ed., London–Boston: Butterworth-Heinemann, 1976. ShukhardinS.V.Dvoinye i mnogokomponentnye sistemy na osnove medi (Copper-Based Binary and Multicomponent Systems)1979MoscowNauka Nefedov, V.I., Rentgenoelektronnaya spektroskopiya khimicheskikh soedinenii (X-Ray Photoelectron Spectroscopy of Chemical Compounds), Moscow: Khimiya, 1984. SkorchellettiV.V.Theory of Metal Corrosion1977 Semenova, I.V., Florianovich, G.M., and Khoroshilov, A.V., Korroziya i zashchita ot korrozii (Corrosion and Corrosion Protection), Moscow: Fizmatlit, 2002. Vasil’evV.Yu.BetuganovM.A.IsaevN.I.KuzmenkoT.G.YakovlevV.B.ShumilovV.N.Effect of ion implantation on the electrochemical characteristics of alloysZashch. Met.198112543545 Geol. Survey Jpn. Open File Report no. 419: Atlas of Eh–pH Diagrams. Intercomparison of Thermodynamic Databases, Naoto, Takeno: Nat. Inst. Adv. Indust. Sci. Technol., Res. Center for Deep Geol. Environ., 2005, pp. 85–87. http://www.eosremediation.com/download/Chemistry/Chemical%20Properties/Eh_pH_ Diagrams.pdf. TodtF.Korrosion und Korrosionsschutz1961BerlinWalter de Gruyter10.1515/9783111508436 ParshutinV.V.PyshkinS.L.Investigation of the properties of modified steel surfaceZashch. Met.1994302762811:CAS:528:DyaK2cXkvVynu78%3D Marshakov, I.K., Vvedenskii, A.V., Kondrashin, V.Yu., and Bokov, G.A., Anodnoe rastvorenie i selektivnaya korroziya splavov (Anodic Dissolution and Selective Corrosion of Alloys), Voronezh: Voronezh State Univ., 1988. NaumovG.B.RyzhenkoB.N.KhodakovskyI.L.Handbook of Thermodynamic Data1974Menlo Park, CaliforniaU.S. Geol. Survey, Water Res. Div SurninD.V.VorobievV.L.GilmutdinovF.Z.Chemical composition and atomic structure of the surface of copper-manganese alloy modified with oxygen ionsJ. Surf. Invest.: X-Ray, Synchrotron Neutron Tech.2016104334371:CAS:528:DC%2BC28XnvFehurw%3D10.1134/S1027451016010171 BriggsD.SeahM.Auger and X-ray Photoelectron Spectroscopy1983ChichesterWiley AkhmadullinR.M.BuiD.N.AkhmadullinaA.G.The study of binary mixed compositions of transition metal oxides deposited on the polymer matrix in the sodium sulfide oxidation, Butlerov.Soobshch.2012309497 Akhmadullina, A.G., Abdrakhimov, Yu.R., and Smirnov, I.N., Obezvrezhivanie i ispol’zovanie sernisto-shchelochnykh otkhodov neftepererabotki i neftekhimii (Neutralization and Use of Sulfur-Alkaline Waste Oil Refining and Petrochemistry), Moscow: TsNIITEnefte-khim, 1990, no. 4. KolotyrkinV.I.KnyazhevaV.M.Possibilities of high-energy metal surface treatment methods for corrosion protectionZashch. Met.199127184186 D. Briggs (1574_CR18) 1983 1574_CR3 V.V. Parshutin (1574_CR6) 1994; 30 1574_CR2 V.I. Kolotyrkin (1574_CR4) 1991; 27 V.V. Skorchelletti (1574_CR1) 1977 1574_CR10 (1574_CR11) 1979 F. Todt (1574_CR9) 1961 1574_CR12 1574_CR8 1574_CR7 D.V. Surnin (1574_CR16) 2016; 10 G.B. Naumov (1574_CR19) 1974 R.M. Akhmadullin (1574_CR14) 2012; 30 1574_CR15 V.Yu. Vasil’ev (1574_CR5) 1981; 12 1574_CR17 M.R. Hoffinan (1574_CR13) 1979; 13 |
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| Snippet | The chemical composition and structure of the Cu–Mn alloy after modification with oxygen ions with an energy of 10–30 keV and a dose of 10
17
cm
–2
have been... The chemical composition and structure of the Cu–Mn alloy after modification with oxygen ions with an energy of 10–30 keV and a dose of 1017 cm–2 have been... |
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| SubjectTerms | Anodic polarization Atomic structure Buffer solutions Chemical bonds Chemical composition Chemistry Chemistry and Materials Science Copper base alloys Corrosion effects Effects of Energy Fluxes on Materials Electrochemical analysis Electrode polarization Hydrochloric acid Industrial Chemistry/Chemical Engineering Inorganic Chemistry Ion implantation Manganese Materials Science Oxygen ions Photoelectrons Potassium hydroxides |
| Title | Effect of Oxygen Ion Implantation on Physicochemical Structure and Corrosion-Electrochemical Behavior of Copper–Manganese Alloy |
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