Thermodynamic Analysis of the Formation of Aluminum and Chrome Halides for Circular Chrome-Aluminizing

Konstantin Bakhrunov

doi:10.4028/www.scientific.net/KEM.685.473

Paper Titles

Lead Distribution in Centrifugal-Cast Billets Made of Quinary Tin-Base Bronze Depending on the Mould Spin Rate
p.455

Casting Quality Enhancement of Bushings Made of Foundry Aluminium Bronzes
p.459

Sampling Control Planning on the Base of Operating Characteristics and with a Grapho-Analytical Method
p.463

Thermodynamic Analysis of the Effect of ZhS6U Alloy Doping Elements on the Process of Circular Chrome-Aluminizing
p.467

Thermodynamic Analysis of the Formation of Aluminum and Chrome Halides for Circular Chrome-Aluminizing
p.473

SLS Setup and its Working Procedure
p.477

Evaluation of the Effect of LED-Lamp Spectral Content on the Development of Greenhouse Tomato
p.482

The Possibility of Manufacturing Long-Length Metal Products with Ultra-Fine Grain Structure by Combination of Strain Effects
p.487

Design of Composite Wire for Arc Welding and Ni₃Al-Based Alloys Surfacing
p.495

HomeKey Engineering MaterialsKey Engineering Materials Vol. 685Thermodynamic Analysis of the Formation of...

Thermodynamic Analysis of the Formation of Aluminum and Chrome Halides for Circular Chrome-Aluminizing

Abstract:

The work presents a thermodynamic analysis assessing the formation of aluminum and chrome halides for diffusion chrome-aluminizing of the surface of nickel heat-proof alloys in activated gases. The author has established chemical reactions that are responsible for the process of circular chrome-aluminizing and the arrangement scheme of initial technological components.

You might also be interested in these eBooks

High Technology: Research and Applications 2015

View Preview

Info:

Periodical:

Key Engineering Materials (Volume 685)

Pages:

473-476

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.685.473

Citation:

Cite this paper

Online since:

February 2016

Authors:

Konstantin Bakhrunov

Keywords:

Chrome-Aluminizing, Circular Method, Diffusion Saturation of Alloys, Diffusion Saturation of Metals, Heat-Proof Coatings, Heat-Resistant Coatings, Multicomponent Coatings

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Shatinsky V.F., Nesterenko A.I. Protective diffusion coatings (in Russian). Kiev, (1988).

Google Scholar

[2] Isaev S. I. Thermodynamics (in Russian). – M.: Bauman Moscow State Technical University, (2000).

Google Scholar

[3] US Patent US3257230 A. Diffusion Coating for Metals Richard L Wachtell, Richard P Seelig. (1966).

Google Scholar

[4] Yu.M. Lakhtin, Ya.D. Kogan, A.M. Vaskovsky et al. Principles of mathematical simulation of TCT processes (in Russian), Metal Science and Heat Treatment, 8 (1979) 43-47.

Google Scholar

[5] Vatolin N.A., Moiseev G.K., Trusov B.G. Thermodynamical simulation in high-temperature inorganic systems (in Russian). Moscow: Metallurgia, (1994).

Google Scholar

[6] Arzamasov B.N. Thermochemical treatment of metals in activated gas media (in Russian). Moscow: Mashinostroenie, (1979).

Google Scholar

[7] Bakhrunov K.K., Lygdenov B.D. Study of the structure and chemical composition of coatings generated by circular chrome-aluminizing (in Russian). Basic Problems of Material Science. Barnaul, 11, 4 (2014) 477–480.

Google Scholar

[8] Bakhrunov K.K. The mechanical properties of coatings on nickel superalloys obtained circulation chromoaluminizing (in Russian). Proceedings of Higher Educational Institutions. Series: Machine Building, Moscow: BMSTU Press Machine Building. 7 (2011).

DOI: 10.18698/0536-1044-2011-7-63-68

Google Scholar