Characterization of magnetron sputtered sub-stoichiometric CrAlSiNx and CrAlSiOyNx coatings

The influence of varying nitrogen and oxygen partial pressures on microstructure, mechanical and optical properties of magnetron sputtered CrAlSiNx and CrAlSiOyNx coatings has been studied. The partial pressure of nitrogen reactive gas was varied from 0.037Pa to 0.15Pa for CrAlSiNx films, and the N2...

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Published inSurface & coatings technology Vol. 328; pp. 134 - 141
Main Authors Al-Rjoub, A., Costa, P., Rebouta, L., Cerqueira, M.F., Alpuim, P., Barradas, N.P., Alves, E.
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 15.11.2017
Elsevier BV
Subjects
Aluminum
Chemical composition
Chemical structure
CrAlSiNx
CrAlSiOyNx
Gases
Hardness
Magnetic properties
Microstructure
Nanoindentation
Nitrogen
Optical properties
Oxygen
Partial pressure
Protective coatings
Reflectance
Refractivity
Solar energy absorbers
X ray photoelectron spectroscopy
CrAlSiNx
CrAlSiOyNx
Hardness
Optical properties
Chemical structure
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Summary:The influence of varying nitrogen and oxygen partial pressures on microstructure, mechanical and optical properties of magnetron sputtered CrAlSiNx and CrAlSiOyNx coatings has been studied. The partial pressure of nitrogen reactive gas was varied from 0.037Pa to 0.15Pa for CrAlSiNx films, and the N2/O2 (85%:15%) partial pressure was varied from 0.046Pa to 0.21Pa for CrAlSiOyNx layers. Transmittance and reflectance of samples were measured and were modeled to obtain the spectral optical constants, n and k. Chemical state, composition, morphology and microstructure of films were analyzed by XPS, RBS, XRD, Raman Spectroscopy and SEM. Films' hardness was evaluated using nanoindentation method. XRD results revealed that the two samples CrAlSiNx with PN=0.15Pa and CrAlSiOyNx with PNO=0.21Pa are polycrystalline with cubic (fcc-B1) structure. On contrary, all other films prepared with lower reactive gases partial pressures are amorphous. The chemical composition changed with the variation of reactive gases partial pressure, although the Cr: Al: Si composition ratio remained approximately constant, 1.25:1.5:1. All samples showed low hardness, mainly due to lower content of reactive gases and higher content of Si. However, the sample CrAlSiNx with PN=0.15Pa has the highest value of 11.1GPa. Optical constants are seen to be very sensitive to reactive gases partial pressure. The refractive index and extinction coefficient were lower for coatings with higher reactive gases partial pressure. These coatings are good candidates for designing selective solar absorber stacks for different applications. •Optical properties of CrAlSiNx and CrAlSiOyNx•With sub-stoichiometry elemental composition, the films are amorphous.•Hardness can be controlled by deposition parameters and reactive gases pressures.•Using CrAlSiNx and CrAlSiOyNx as layers in selective solar absorber stacks
ISSN:0257-8972
1879-3347
DOI:10.1016/j.surfcoat.2017.08.038