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Characteristics of microstructure in composite surface layers

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Heat spraying consists in manufacturing of a metal, cermetallic or ceramic coating on the surface of any product by means of special-purpose blowpipe for melting and spraying of the applied materials. The sprayed layers are typically characterized by low adhesion to the surface and low cohesion, which limits opportunities of wide application. Additional processing is performed in order to rebuilt the created coatings, by e.g. surface treatment by application of concentrated energy sources [1-16]. The purpose of this work was a cognitive analysis of structural effects which occur in the alloyed surface layer melted with three various types of heat sources - laser, plasma and TIG welding method. Surfaces of samples were previously covered with l00μm TiO2 ceramic layer. The investigations, carried out in order to correlate structural effects in the created surface layer, revealed differences between beams used during heat treatment, in consideration of both methodology and structural results of the process.
Rocznik
Strony
75--78
Opis fizyczny
Bibliogr. 16 poz., rys., wykr.
Twórcy
autor
  • Institute of Materials Engineering, Częstochowa University of Technology
  • Institute of Materials Engineering, Częstochowa University of Technology
Bibliografia
  • [1] J.H. Lee, S.J. Na, An analysis of volumetric radiation heat flux and experimental comparison with arc light sensing in GTA welding process, Journal of Materials Processing Technology, 110,(2001) 104-110.
  • [2] K. Ferenc, Z. Nita, T. Sobiś: Welding, Warszawa, 1999 (in Polish).
  • [3] W. Serbiński, B. Majkowska, microstructure and corrosion properties of the laser treated superston alloy, Journal of Achievements in Materials and Manufacturing Engineering, 18, (2006), 415-418.
  • [4] Dudek A., Nitkiewicz Z.: The structure properties of surface layers wich was obtained by alloying process, Acta Metallurgia Slovaca, 8, 2002, 339-343.
  • [5] Cui H., Geng H., Tian X., Chen C., Zhao P.: Laser surface remelting and resolidifying process of Zn-27 wt.% Al alloy. Materials Science and Engineering A323, 2002.
  • [6] A. Zieliński, M. Jażdzewska, A. Narożniak, W. Serwiński, Surface structure and properties of Ti6A14V alloy laser melted at cryogenic conditions, Journal of Achievements in Materials and Manufacturing Engineering, 18, (2006), 423-426.
  • [7] L.A. Dobrzański, E. Jonda, A. Polok, Effect of laser treatment on changes of the surface layers properties of the hot work alloy tool steels, Journal of Achievements in Materials and Manufacturing Engineering, 18, (2005), 42-46.
  • [8] A.M. Camacho, M. Marin, L. Sevilla, R. Domingo, Influence of strain hardening on forces and contact pressure distributions in forging processes, Journal of Achievements in Materials and Manufacturing Engineering, 15, (2006), 166-174.
  • [9] Singh Sidhu B., Puri D., Prakash S.: Mechanical and metallurgical properties of plasma sprayed and laser remelted Ni-20Cr and Stellite-6 coatings. Journal of Materials Processing Technology 159, (2005).
  • [10] A. Dudek, Z. Nitkiewicz:The arc plasma shape in the structural changes aspect after remelting process, 21,(2006), 199-206.
  • [11] W. Ptak, A. Tabor: Effect of primary remelting of cast iron on the ąuality of repair welds and casting welds, 21,(2006), 213.
  • [12] M.S. Węglowski, M. Kępińska, Z. Mikno: Arc light emission in TIG welding, 21, Archives of Foundry, (2006), 243-248.
  • [13] W. Piekarska: Temperature fields and phase transformations of HAZ in the laser beam welded joint, Archives of Foundry, 6, (2006), 370-375.
  • [14] J. Szajnar, P. Wróbek, T. Wróbel: TIG sufacing-method of repair chromium cast with casting defects, , Archives of Foundry, 6, (2006), 390-396.
  • [15] Burakowski T., Wierchoń T. Surface ingineering. WNT, Warszawa, 1995, (in Polish).
  • [16] Z. Nitkiewicz: The use of the plasma arc in surface engineering, Wyd. PCz, Częstochowa, 2001, (in Polish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7fad0d59-389c-4ff3-ab36-308dc7e07f8a
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