Thin Solid Films, Vol.517, No.6, 1887-1894, 2009
A comparative study of CrNx coatings Synthesized by dc and pulsed dc magnetron sputtering
Chromium nitride (CrNx) coatings were prepared by reactively sputtering chromium metal target with various nitrogen flow rate percentages (f(N2)) Using a closed field unbalanced magnetron sputtering system operated in dc and middle frequency pulsed condition (100 kHz and 50% duty cycle). In this study, plasma examination proved that a large amount of ions with a wide range of ion energies (up to 65 eV and mainly from 10-30 eV(-)egion) was identified in the pulsed plasma compared to the low ion flux and energy (0-10 eV) in a dc discharged plasma. The results showed that the phase structure of CrNx coatings was changed front nitrogen doped Cr(N) to pure beta-Cr2N, and to a mixture beta-Cr2N arid c-CrN and then to pure c-CrN phases with an increase in the f(N2) in both dc and pulsed conditions. However, the pulsed CrNx coatings exhibit lower N concentrations than dc CrNx coatings prepared Under the same f(N2), which leads to the existing of beta-Cr2N phase within a wide range of f(N2) (30-50%). In comparison with the typical large columnar structure in the dc sputtered coatings, the pulsed CrNx coatings exhibit dramatic microstructure improvements which benefited from the improved plasma density and ion bombardment from the pulsed plasma, where the super dense and nearly equi-axial structures were observed in a wide range of f(N2). The inicrostructure improvements contributed to the enhancements in the hardness arid wear resistance of pulsed CrNx coatings. In the pulsed CrNx coatings, the hardness values were above 30 GPa when the f(N2) is in the range of 30-40%, which is related to the formation of the beta-Cr2N phase. With the formation of a mixture of beta-Cr2N and c-CrN phases in the coatings deposited with 40-50% f(N2), a low COF of 0.36 and wear rate of 1.66 x 10(-6) mm(3) N-1 m(-1) can be achieved. Published by Elsevier B.V.
Keywords:Chromium nitride (CrN);Pulsed magnetron sputtering (PMS);Hard coatings;Ion energy distribution (IED);Plasma diagnostic;Wear