International Journal of Materials Science and Applications

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The Use of Coatings to Obtain the Diffusion Layer on the Walls of Molds

Received: 25 November 2015    Accepted: 10 December 2015    Published: 15 January 2016
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Abstract

In this work diffusion layers on narrow walls of crystallizers removed from service were created by aluminium spraying on M1 copper and МН2, 5КоКрХ copper alloy with subsequent heat treatment for increasing of life time of crystallizers in continuous casting machines. Layer thickness and microhardness have been assumed as basic measure of serviceability. To clarify the reasons of reducing the thickness of the diffusion layer on the copper alloy МН2, 5КоКрХ were conducted metallographic and microengineering research. The coating was applied on the wall alloy МН2, 5КоКрХ, the diffusion layer microhardness was measured on microthermometry PMT-3. The analysis found that increasing the thickness of the deposited coating and the temperature rise of the heat treatment, as a rule, lead to an increase in the thickness of the diffusion layer; change the security environment with 95%N2+5%H2 100%H2 does not change the thickness of the diffusion layer; a diffusion layer microhardness of 2-6 times higher than the microhardness of copper and is 1140-3880 MPa against 460-590 MPa on copper base. It is reasonable to spray aluminium thermal coating on narrow crystallizer walls with subsequent heat treatment in protective atmosphere using adjusted modes and proofing of a crystallizer in a continuous casting machine for estimation of wall state during exploitation and change of cast metal quality.

DOI 10.11648/j.ijmsa.20160501.11
Published in International Journal of Materials Science and Applications (Volume 5, Issue 1, January 2016)
Page(s) 1-4
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2024. Published by Science Publishing Group

Keywords

Crystallizer, Narrow Wall, Coating, Diffusion Layer, Sample

References
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[2] Radyuk A. G., Titlyanov A. G., Ukrainians A. E. Formation of diffusion layers on the surface of copper and its alloys. TSvetnye metally, 2007, no. 5, pp. 95-97. (Russian).
[3] Zeit V. Diffuziya v metallakh [Diffusion in metals]. Moscow: Metallurgy, 1966, 654 p. (Russian).
[4] Minkevich А. N. Khimiko–termicheskaya obrabotka metallov i splavov [Chemical heat treatment of metals and alloys]. Moscow: Mashinostroenie, 1965, 491 p. (Russian).
[5] Vavilovskaya N. G., Timonina L. G. The oxidation resistance and abrasion resistance of copper, diffusion-saturated by aluminum, nickel, zirconium. Zashhitnye pokrytiya na metallakh. 1971. Iss. 5, pp. 177–179. (Russian).
[6] Dubinin G. N., Sokolov V. S. The heat resistance and the corrosion resistance of copper and bronze after alite chromizing. Zashhitnye pokrytiya na metallakh. 1979. Iss. 13, pp. 79–82. (Russian).
[7] Radyuk А. G., Titlyanov А. E. Improving the performance of parts of metallurgical equipment from copper-coated gas-flame coatings. Stal'. 2011, no. 3. pp. 7–9. (Russian).
[8] Kakuevitskij V. А. Primenenie gazotermicheskikh pokrytij pri izgotovlenii i remonte mashin. [The use of thermal spray coatings in production and repair of machines]. Kiev: Tekhnika, 1989, 174 p. (Russian).
[9] Radyuk, A. G., Gorbatyuk, S. M., Gerasimova, A. A. Use of electric-arc metallization to recondition the working surfaces of the narrow walls of thick-walled slab molds. Metallurgist. 2011, Vol. 55, Nos. 5–6, pp. 419-423. (English).
[10] Polyak M. S. Tekhnologiya uprochneniya: v 2-kh t. [The technology of hardening, vols 1-2] Vol. 1. Moscow: Mashinostroenie, 1995, 832 p. (Russian).
[11] Radyuk А. G., Titlyanov А. E., Samedov E. M. The properties of the surface layer on copper, formed after application and heat treatment of aluminum thermal spray coatings Izv. VUZov. TSvetnaya metallurgiya. 2007, no. 3, pp. 70–74. (Russian).
Author Information
  • Department Engineering Process Equipment, National University of Science and Technology "MISIS", Moscow, Russia

  • Department Engineering Process Equipment, National University of Science and Technology "MISIS", Moscow, Russia

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    Gerasimova Alla, Radyuk Aleksandr Germanovich. (2016). The Use of Coatings to Obtain the Diffusion Layer on the Walls of Molds. International Journal of Materials Science and Applications, 5(1), 1-4. https://doi.org/10.11648/j.ijmsa.20160501.11

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    ACS Style

    Gerasimova Alla; Radyuk Aleksandr Germanovich. The Use of Coatings to Obtain the Diffusion Layer on the Walls of Molds. Int. J. Mater. Sci. Appl. 2016, 5(1), 1-4. doi: 10.11648/j.ijmsa.20160501.11

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    Gerasimova Alla, Radyuk Aleksandr Germanovich. The Use of Coatings to Obtain the Diffusion Layer on the Walls of Molds. Int J Mater Sci Appl. 2016;5(1):1-4. doi: 10.11648/j.ijmsa.20160501.11

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  • @article{10.11648/j.ijmsa.20160501.11,
      author = {Gerasimova Alla and Radyuk Aleksandr Germanovich},
      title = {The Use of Coatings to Obtain the Diffusion Layer on the Walls of Molds},
      journal = {International Journal of Materials Science and Applications},
      volume = {5},
      number = {1},
      pages = {1-4},
      doi = {10.11648/j.ijmsa.20160501.11},
      url = {https://doi.org/10.11648/j.ijmsa.20160501.11},
      eprint = {https://download.sciencepg.com/pdf/10.11648.j.ijmsa.20160501.11},
      abstract = {In this work diffusion layers on narrow walls of crystallizers removed from service were created by aluminium spraying on M1 copper and МН2, 5КоКрХ copper alloy with subsequent heat treatment for increasing of life time of crystallizers in continuous casting machines. Layer thickness and microhardness have been assumed as basic measure of serviceability. To clarify the reasons of reducing the thickness of the diffusion layer on the copper alloy МН2, 5КоКрХ were conducted metallographic and microengineering research. The coating was applied on the wall alloy МН2, 5КоКрХ, the diffusion layer microhardness was measured on microthermometry PMT-3. The analysis found that increasing the thickness of the deposited coating and the temperature rise of the heat treatment, as a rule, lead to an increase in the thickness of the diffusion layer; change the security environment with 95%N2+5%H2 100%H2 does not change the thickness of the diffusion layer; a diffusion layer microhardness of 2-6 times higher than the microhardness of copper and is 1140-3880 MPa against 460-590 MPa on copper base. It is reasonable to spray aluminium thermal coating on narrow crystallizer walls with subsequent heat treatment in protective atmosphere using adjusted modes and proofing of a crystallizer in a continuous casting machine for estimation of wall state during exploitation and change of cast metal quality.},
     year = {2016}
    }
    

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    AU  - Gerasimova Alla
    AU  - Radyuk Aleksandr Germanovich
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    JF  - International Journal of Materials Science and Applications
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    AB  - In this work diffusion layers on narrow walls of crystallizers removed from service were created by aluminium spraying on M1 copper and МН2, 5КоКрХ copper alloy with subsequent heat treatment for increasing of life time of crystallizers in continuous casting machines. Layer thickness and microhardness have been assumed as basic measure of serviceability. To clarify the reasons of reducing the thickness of the diffusion layer on the copper alloy МН2, 5КоКрХ were conducted metallographic and microengineering research. The coating was applied on the wall alloy МН2, 5КоКрХ, the diffusion layer microhardness was measured on microthermometry PMT-3. The analysis found that increasing the thickness of the deposited coating and the temperature rise of the heat treatment, as a rule, lead to an increase in the thickness of the diffusion layer; change the security environment with 95%N2+5%H2 100%H2 does not change the thickness of the diffusion layer; a diffusion layer microhardness of 2-6 times higher than the microhardness of copper and is 1140-3880 MPa against 460-590 MPa on copper base. It is reasonable to spray aluminium thermal coating on narrow crystallizer walls with subsequent heat treatment in protective atmosphere using adjusted modes and proofing of a crystallizer in a continuous casting machine for estimation of wall state during exploitation and change of cast metal quality.
    VL  - 5
    IS  - 1
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