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W2002741113 endingPage "991" @default.
W2002741113 startingPage "981" @default.
W2002741113 abstract "Nanocrystalline ZrB2 film and nanocomposite Zr–B–O–N films were prepared by non-reactive as well as reactive magnetron sputtering techniques, respectively. By means of X-ray diffraction analysis, electron probe microanalysis, X-ray photoelectron spectroscopy, and scanning electron microscopy, the influence of nitrogen flow ratio on the film microstructure and characteristics were investigated systematically, including the deposition rate, chemical compositions, phase constituents, grain size, chemical bonding, as well as cross-sectional morphologies. Meanwhile, the hardness and adhesion of above films were also evaluated by micro-indentation method and a scratch tester. With increasing the nitrogen flow ratio, the deposition rate of above films decreased approximately linearly, whereas the contents of N and O in the films increased gradually and tended to saturation. Moreover, the film microstructure was also altered gradually from a fine columnar microstructure to a featureless glass-structure. As the nitrogen flow ratio was 11.7%, the Zr–B–O–N film possessed an typical nanocomposite structure and presented good mechanical properties. During the process of reactive sputtering of metal borides, the introduction of nitrogen can show a pronounced suppression of columnar grain growth and strong nanocomposite structure forming ability." @default.
W2002741113 created "2016-06-24" @default.
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W2002741113 date "2012-11-01" @default.
W2002741113 modified "2023-10-05" @default.
W2002741113 title "Influence of Nitrogen Flow Ratio on the Microstructure, Composition, and Mechanical Properties of DC Magnetron Sputtered Zr–B–O–N Films" @default.
W2002741113 cites W1964859510 @default.
W2002741113 cites W1964898342 @default.
W2002741113 cites W1967269074 @default.
W2002741113 cites W1976882386 @default.
W2002741113 cites W1977102965 @default.
W2002741113 cites W1978379604 @default.
W2002741113 cites W1979422817 @default.
W2002741113 cites W1982462467 @default.
W2002741113 cites W1983084666 @default.
W2002741113 cites W1983143174 @default.
W2002741113 cites W1990127291 @default.
W2002741113 cites W1992129382 @default.
W2002741113 cites W1992237602 @default.
W2002741113 cites W1995910651 @default.
W2002741113 cites W1997898669 @default.
W2002741113 cites W1998893016 @default.
W2002741113 cites W1999644491 @default.
W2002741113 cites W2001120318 @default.
W2002741113 cites W2007848992 @default.
W2002741113 cites W2010851558 @default.
W2002741113 cites W2018343072 @default.
W2002741113 cites W2019046444 @default.
W2002741113 cites W2026008498 @default.
W2002741113 cites W2026550289 @default.
W2002741113 cites W2028173789 @default.
W2002741113 cites W2037376096 @default.
W2002741113 cites W2038459855 @default.
W2002741113 cites W2038777418 @default.
W2002741113 cites W2038998069 @default.
W2002741113 cites W2046587873 @default.
W2002741113 cites W2047268393 @default.
W2002741113 cites W2047827058 @default.
W2002741113 cites W2048501894 @default.
W2002741113 cites W2049218286 @default.
W2002741113 cites W2051879059 @default.
W2002741113 cites W2052810277 @default.
W2002741113 cites W2054282895 @default.
W2002741113 cites W2056192958 @default.
W2002741113 cites W2073676146 @default.
W2002741113 cites W2079231163 @default.
W2002741113 cites W2082017314 @default.
W2002741113 cites W2086692283 @default.
W2002741113 cites W2086710447 @default.
W2002741113 cites W2088627926 @default.
W2002741113 cites W2089017964 @default.
W2002741113 cites W2089284047 @default.
W2002741113 cites W2153703866 @default.
W2002741113 cites W2154621989 @default.
W2002741113 cites W2180898129 @default.
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W2002741113 doi "https://doi.org/10.1016/s1005-0302(12)60162-5" @default.
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