Applying Thermal Coatings to Narrow Walls of the Continuous-Casting Molds

Sergey Gorbatyuk; Alla A. Gerasimova; N.N. Belkina

doi:10.4028/www.scientific.net/MSF.870.564

Paper Titles

Experimental Substantiation of a Method of Improving the Efficiency of Ultrasonic Drilling of Small Diameter Holes
p.539

Solution to the Diffusion Problem in the Thermocyclic Nitrocementation of Steel
p.545

Interaction of Hydrogen Atoms with Vacancies and Divacancies in bcc Iron
p.550

Estimation of the Heat Stability of Hardened Cr-V Cast Irons
p.558

Applying Thermal Coatings to Narrow Walls of the Continuous-Casting Molds
p.564

Electropulse Processing of Gold-Bearing Ore
p.568

Mathematical Modeling of Mechanized Technologies Soldering
p.573

Carbon in Solidphase Reduction of Oxides
p.578

Influence of Steel Chemical Composition and Modes of the Thermomechanical Treatment on Mechanical Properties of a Hot Rolled Plate
p.584

HomeMaterials Science ForumMaterials Science Forum Vol. 870Applying Thermal Coatings to Narrow Walls of the...

Applying Thermal Coatings to Narrow Walls of the Continuous-Casting Molds

Abstract:

Studies on enhancing the service life of continuous casting moulds at their narrow walls of copper M1 before the last repair by means of a heat spraying wear-resistant layer of the chrome-nickel coating have been carried out. Preliminary, the coating`s structure, phase composition, skin hardness and microhardness of chromium-nickel coating were studied. It is established that to obtain the required cleanliness level of the wall surface by making use of their mechanical operation, it is necessary to conduct thickness of the chromium-nickel coating operations. 0.5 – 0.6 mm chrome-nickel thermal coating was applied to the surface of the wall of a thick-walled narrow pair crystallizer. The results indicate the high-quality coating acceptable for application to the working surface of narrow walls of thick-walled moulds.

You might also be interested in these eBooks

Materials Engineering and Technologies for Production and Processing II

View Preview

Info:

Periodical:

Materials Science Forum (Volume 870)

Pages:

564-567

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.870.564

Citation:

Cite this paper

Online since:

September 2016

Authors:

Sergey Gorbatyuk*, Alla A. Gerasimova, N.N. Belkina

Keywords:

Microhardness, Mold, Narrow Wall, Phase Composition, Structure, Thermal Coating

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

* - Corresponding Author

References

[1] I.I. Novikov, Theory of heat treatment of metals, Metallurgy Pupl., Moscow, (1986).

Google Scholar

[2] A. Pesin, V. Salganik, D. Pustovoitov, Modeling of Surface Crack Form Change of Continuously Cast Slabs in Roughing Rolling at Wide Strip Mill 2000, Proceedings of the 13th International Conference on Metal Forming METAL FORMING 2010. (2010).

DOI: 10.1063/1.3457534

Google Scholar

[3] A.G. Radyuk, A.G. Titlyanov, A.E. Ukrainians, Formation of diffusion layers on the surface of copper and its alloys, Moscow: Non-ferrous metals. 5 (2007) 95-97.

Google Scholar

[4] V. Zeit, Diffusion in metals, Metallurgy Publ., Moscow, (1966).

Google Scholar

[5] A.N. Minkevich Chemical heat treatment of metals and alloys, Mashinostroenie Publ., Moscow, (1965).

Google Scholar

[6] G.N. Dubinin, V.S. Sokolov, The heat resistance and the corrosion resistance of copper and bronze after alite chromizing, Protective coating on metals. 13 (1979) 79–82.

Google Scholar

[7] S.N. Ushakov, Y.M. Zhelnin, A.G. Alekseev, The results of the application of molds with resistant coating in the slab CCM with a vertical section in electrosteel workshop of OJSC MMK, Mining Journal. Black metals. (2012) 49-50.

Google Scholar

[8] A.V. Kuklev, Y.M. Aizin, A.A. Makrushin, Russian experience in the application of coatings on the walls of the copper slab molds, Steel in Translation. 3 (2007) 17-18.

DOI: 10.3103/s0967091207030242

Google Scholar

[9] A.G. Radyuk, A.E. Titlyanov, Improving the performance of parts of metallurgical equipment from copper-coated gas-flame coatings, Steel. 3 (2011) 7-9.

Google Scholar

[10] A.A. Gerasimova, A.G. Radyuk, L.M. Glukhov, Applying Coatings to the Narrow Walls of Continuous-Caster Molds to Improve the Quality of the Surface of Slabs, Metallurgist. 58 (2014) 397-400.

DOI: 10.1007/s11015-014-9922-2

Google Scholar

[11] A.G. Radyuk, S.M. Gorbatyuk, A.A. Gerasimova, Use of electric-arc metallization to recondition the working surfaces of the narrow walls of thick-walled slab molds, Metallurgist. 55 (2011) 419-423.

DOI: 10.1007/s11015-011-9446-y

Google Scholar

[12] M.S. Polyak, The technology of hardening, Vol. 1., Mashinostroenie Publ., Moscow, (1995).

Google Scholar

[13] A.G. Radyuk, A.E. Titlyanov, E.M. Samedov, The properties of the surface layer on copper, formed after application and heat treatment of aluminum thermal spray coatings, Izvestiya VUZov Non-ferrous metallurgy. 3 (2007) 70-74.

DOI: 10.3103/s1067821207030133

Google Scholar

[14] A.A. Gerasimova, A.G. Radyuk, A.E. Titlyanov, Creation of a diffusional aluminum layer on thenarrow walls of continuous-casting molds, Steel in Translation. 45 (2015) 185-187.

DOI: 10.3103/s0967091215030079

Google Scholar