Paper Titles

Influence of pH and Synthesis Duration on the Composition and Thermal Behavior of Hydrolysis Products of Lanthanum Nitrate
p.150

Optimization of the Composition and Structure of Deformable Heat Resistant Aluminum Alloy
p.156

Thermodynamic Modeling of the Processes of Interaction of Calcium, Magnesium, Aluminum and Boron with Oxygen in Metallic Melts
p.162

Ceramic Proppants Based on Ultrabasic Rocks of Kazakhstan Chromite Ore Deposits
p.169

Assessment of the Structural State of the Amorphous Alloys Thin Surface Layers
p.174

Doping Titanium Dioxide by Fluoride Ion
p.181

The Poly-Substituted M-Type Hexaferrite Crystals Growth
p.186

Investigation of Physical and Chemical Processes of Formation of Composite Materials with Specified Structural Phase Characteristics
p.192

Features of Technological Materials Application in Thermal Manufacturing
p.199

HomeMaterials Science ForumMaterials Science Forum Vol. 946Assessment of the Structural State of the...

Assessment of the Structural State of the Amorphous Alloys Thin Surface Layers

Article Preview

Abstract:

The complex approach based on the combination of methods of equilibrium thermodynamics and x-ray electron spectroscopy for layer-by-layer analysis of the composition of surface layers of amorphous alloys is described on the example of Fe-Si-B-Nb-Cu alloy.

You might also be interested in these eBooks

Materials Science and Metallurgical Technology

Info:

Periodical:

Materials Science Forum (Volume 946)

Pages:

174-180

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.946.174

Citation:

Cite this paper

Online since:

February 2019

Authors:

Olga M. Kanunnikova*, O.Yu. Goncharov, V.I. Lad’yanov

Keywords:

Amorphous Alloys, Concentration Profiles, Surface Layers, Thermodynamic Analysis, X-Ray Photoelectron Spectroscopy

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2019 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] V.I. Povstugar, A.A. Shakov, S.S. Mihajlova, E.V. Voronina, E.P. Elsukov, Razlozhenie slozhnyh rentgeno-fotojelektronnyh spektrov s pomoshhju bystrogo diskretnogo preobrazovanija Furye i uluchshennoj proceduroj shodimosti reshenija. Ocenka primenimosti metodiki, J.Analit. Chem. 53, 8(1998) 795-799.

[2] N.A. Vatolin, G.K. Moiseev, B.G. Trusov, Termodinamicheskoe modelirovanie v vysokotemperaturnyh neor-ganicheskih sistemah. Moscow: Metallurgija, (1994).

[3] O.Ju. Goncharov, Termodinamicheskoe modelirovanie vysokotemperaturnogo okislenija splavov Fe-Cr na vozduhe, Neorg. mat. 40, 12 (2004) 1476-1482.

[4] V.A. Volkov, V.I. Ladyanov, V.S. Cepelev, Osobennosti poverhnostnoj i ob#emnoj kristallizacii lent amorfnogo splava Fe76,1Si13,8V6,1Nb3Cu, Metally, 6 (1998) 37-43.

[5] S.F. Lomayeva, O.M. Kanunnikova, V.I. Povstugar, AFM and XPS investigation of surface layers of nanocrystalline FeSiBNbCu, Phys. Low-Dim. Str. 3/4(2001) 271-276.

[6] H.M. Naguib, R.Kelly, Criteria for bombardment-induced structural changes in non-metallic solids, Radiation effects. 25 (1975)1-12.

DOI: 10.1080/00337577508242047

[7] P.H. Holloway, P. Bhattacharia, Limitation of ion etching for interface analysis, Surf. Interface Anal. 3 (1981)118-125.

DOI: 10.1002/sia.740030305

[8] R.Kelly, On the problem of whether mass of chemical bonding is more important to bombardment-induced compositional changes in alloys and oxide, Surf. Sci. 100 (1980) 85-107.

DOI: 10.1016/0039-6028(80)90446-x

[9] G.K. Wolf, Chemical effects of ion bombardment, Instr. Inorg. Chem. 83 (1979)1-34.

[10] S.Hoffmann, Quantitative depth profiling in surface analysis: a review, Surf. Interface Anal., 2, 4 (1988)148-160.

[11] I.L. Lomaev, S.F. Lomaeva, Application of atomic force microscopy and x-ray photoelectron spectroscopy to measuring thickness of surface coating for nanostructured materials, Phys. Low-Dim. Struct., 2/3 (2003) 175-182.

[12] Y.Teraoka, M.Komaki, Surface segregation and surface melting in segregating alloys, Surf. Sci. 439 (1999) 1-13.

DOI: 10.1016/s0039-6028(99)00670-6

[13] F.Z. Gilmutdinov, O.M. Kanunnikova, Prognozirovanie izmenenij sostava poverhnosti mnogokomponent-nyh splavov pri termicheskih vozdejstvijah, FMM. 84, 2 (1997) 78-88.

[14] Diagrammy sostojanija dvojnyh i mnogokomponentnyh sistem na osnove zheleza. Spravochnik. Pod.red. Ban-nyh O.A., Drica M.E. M.: Metallurgija. (1986).

[15] O.Ju.Goncharov, O.M. Kanunnikova, S.F. Lomaeva, A.A. Shakov, Sostav poverhnostnyh sloev, obrazujushhihsja pri poluchenii amorfnogo splava Fe70Cr15B15, FMM. 91, 6 (2001)64-71.

[16] O.M. Kanunnikova, S.F. Lomaeva, F.Z. Gilmutdinov, A comparative analysis of surface layers of amorphous Fe70Cr156B15 alloy by means of atomic force microscopy and x-ray еlectron spectroscopy, Phys. Low-Dim. Struct. 3/ 4 (2001) 333-340.

[17] A.P. Brovko, V.V. Maslo, D.Ju. Paderno, O prirode kristallov na kontaktnoj poverhnosti amorfnyh lent splavov (Fe,Cr)85B15, Metallofizika. 12, 4 (1990)116-119.