Oxidation resistance of decorative (Ti,Mg)N coatings deposited by hybrid cathodic arc evaporation-magnetron sputtering process
暂无分享,去创建一个
[1] G. Thollet,et al. Correlation between thermal fatigue and thermomechanical properties during the oxidation of multilayered TiSiN nanocomposite coatings synthesized by a hybrid physical/chemical vapour deposition process , 2010 .
[2] Wei Feng,et al. Assignment of Raman-active vibrational modes of MgTiO3 , 2008 .
[3] M. Odén,et al. Thermal stability, microstructure and mechanical properties of Ti1 − xZrxN thin films , 2008 .
[4] J. Pierson,et al. Study of the structural changes induced by air oxidation in Ti-Si-N hard coatings , 2008 .
[5] F. Lévy,et al. Formation of composite ternary nitride thin films by magnetron sputtering co-deposition , 2006 .
[6] J. Pierson,et al. Oxidation resistance improvement of arc-evaporated TiN hard coatings by silicon addition , 2006 .
[7] C. Ducros,et al. Multilayered and nanolayered hard nitride thin films deposited by cathodic arc evaporation. Part 2: Mechanical properties and cutting performances , 2006 .
[8] M. Balzer,et al. Some properties of (Ti,Mg)N thin films deposited by reactive dc magnetron sputtering , 2005 .
[9] S. K. Biswas,et al. Deconvolution of fracture properties of TiN films on steels from nanoindentation load-displacement curves , 2005 .
[10] H. Barshilia,et al. Raman spectroscopy studies on the thermal stability of TiN, crN, TiAlN coatings and nanolayered TiN/CrN, TiAlN/CrN multilayer coatings , 2004 .
[11] P. Steyer,et al. How to Design a Nano-Multilayered PVD Nitrides Based Coating Regarding its Resistance Against Oxidation and Aqueous Corrosion ? , 2004 .
[12] J. Pierson,et al. Stabilisation of tetragonal zirconia in oxidised ZrSiN nanocomposite coatings , 2004 .
[13] M. Balzer,et al. Spectroellipsometric evaluation of colour and oxidation resistance of TiMgN coatings , 2004 .
[14] S. G. Harris,et al. Reducing the macroparticle content of cathodic arc evaporated TiN coatings , 2003 .
[15] S. Lau,et al. Substrate bias dependence of Raman spectra for TiN films deposited by filtered cathodic vacuum arc , 2002 .
[16] Yoshiaki Nakamura,et al. Formation and oxidation properties of (Ti1−xAlx)N thin films prepared by dc reactive sputtering , 2002 .
[17] A. Perry,et al. Microstructural features of wear-resistant titanium nitride coatings deposited by different methods , 2000 .
[18] A. Kimura,et al. Microhardness and structural analysis of (Ti,Al)N, (Ti,Cr)N, (Ti,Zr)N and (Ti,V)N films , 2000 .
[19] B. Almeida,et al. Structural analysis of Ti1−xSixNy nanocomposite films prepared by reactive magnetron sputtering , 1999 .
[20] S. Vepřek. The search for novel, superhard materials , 1999 .
[21] J. Yarwood,et al. Raman microscopic studies of PVD hard coatings , 1999 .
[22] M. Nose,et al. Electrical and colorimetric properties of TiN thin films prepared by DC reactive sputtering in a facing targets sputtering (FTS) system , 1999 .
[23] F. Lévy,et al. Improving the properties of titanium nitride by incorporation of silicon , 1998 .
[24] Dalva Lúcia Araújo de Faria,et al. Raman microspectroscopy of some iron oxides and oxyhydroxides , 1997 .
[25] K. Furic,et al. Raman investigation of nanosized TiO2 , 1997 .
[26] S. Hofmann,et al. High temperature oxidation behaviour of (Ti1−xCrx)N coatings , 1996 .
[27] R. Vispute,et al. Characteristics of titanium nitride films grown by pulsed laser deposition , 1996 .
[28] J. Celis,et al. Oxidational wear of TiN coatings on tool steel and nitrided tool steel in unlubricated fretting , 1995 .
[29] Lennart Karlsson,et al. Ion induced stress generation in arc‐evaporated TiN films , 1995 .
[30] R. Netterfield,et al. The properties of TiN films deposited by filtered arc evaporation , 1994 .
[31] D. Bhat,et al. Review of CVD TiN coatings for wear-resistant applications: deposition processes, properties and performance* , 1994 .
[32] P. Martin,et al. Deposition of TiN, TiC, and TiO2 films by filtered arc evaporation , 1991 .
[33] J. Erickson. A model of dynamic damping in surface and interfacial kinetics , 1989 .
[34] R. Lappalainen,et al. Comparison of cutting performance of ion-plated NbN, ZrN, TiN and (Ti, Al)N coatings , 1987 .
[35] Mikael Östling,et al. A comparative study of the diffusion barrier properties of TiN and ZrN , 1986 .
[36] W. Münz. Titanium aluminum nitride films: A new alternative to TiN coatings , 1986 .
[37] S. Kanamori. Investigation of reactively sputtered TiN films for diffusion barriers , 1986 .
[38] J. Sundgren,et al. Structure and properties of TiN coatings , 1985 .
[39] W. Sproul,et al. High rate reactively sputtered TiN coatings on high speed steel drills , 1985 .
[40] B. A. Wechsler,et al. Thermodynamics and structural chemistry of compounds in the system MgOTiO2 , 1984 .
[41] A. Mumtaz,et al. Color of titanium nitride prepared by reactive dc magnetron sputtering , 1982 .
[42] R. Kaiser,et al. Raman scattering, superconductivity, and phonon density of states of stoichiometric and nonstoichiometric TiN , 1978 .
[43] T. C. Damen,et al. Raman Spectra of TiO2, MgF2, ZnF2, FeF2, and MnF2 , 1967 .
[44] D. Tsai,et al. Raman spectroscopy study of the phase transformation on nanocrystalline titania films prepared via metal organic vapour deposition , 2009 .
[45] A. Demšar,et al. Optical properties of nitride coatings deposited at low substrate temperatures , 1990 .
[46] P. Martin,et al. Optical properties of TiNx produced by reactive evaporation and reactive ion-beam sputtering , 1982 .