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    Öğe
    Investigations into the cutting and wear characteristics of TiCN-CrN coated C 80 steels
    (Carl Hanser Verlag, 2008) Cakan, Ahmet; Ozkaner, Vedat; Yildirim, M. Mustafa
    Hard coatings of titanium carbonitrides (TiCN) and chromium nitrides (CrN) are now commonly used to protect the surfaces of cutting tools from the effects of wear and corrosion. In the work presented here the surfaces of the cutting edges of tools made of unalloyed C80 steel are coated with a thin layers of TiCN and CrN coatings using the Cathodic Arc-Vapour (CAVD) deposition technique. The cutting characteristics and wear behaviour of the cutting tools so treated were then investigated experimentally on a conventional lathe. The change in the chemical composition and properties of the nitride coated surfaces is investigated using both SEM photography with line scan analysis and by X-ray diffraction (XRD). Cutting tests and wear behaviour of tools, the cutting edges of which were coated with very thin TiCN and CrN coatings, were investigated directly using an on-line monitoring system. Amongst other things the results revealed the TiCN coated cutting tools to be more wear resistant than those coated with CrN coatings.
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    Öğe
    Quantifying Cutting and Wearing Behaviors of TiN- and CrN-Coated AISI 1070 Steel
    (Mdpi, 2008) Cakan, Ahmet; Ozkaner, Vedat; Yildirim, Mustafa M.
    Hard coatings such as titanium nitride (TiN) and chromium nitride (CrN) are widely used in cutting and forming tools against wear and corrosion. In the present study, hard coating films were deposited onto AISI 1070 steels by a cathodic arc evaporation plating ( CAVP) technique. These samples were subjected to wear in a conventional lathe for investigating the tribological behaviour of coating structure, and prenitrided subsurface composition was characterized using scanning electron microscopy (SEM), line scan analyses and X-ray diffraction ( XRD). The wear properties of TiN- and CrN-coated samples were determined using an on-line monitoring system. The results show that TiN- coated samples demonstrate higher wear resistance than CrN-coated samples.