Add to ORKGMultilayer superlattice coatings of TiN/CrN were deposited on silicon substrates using a reactive d.c. magnetron sputtering process. Superlattice period, also known as modulation wavelength (?), was controlled by controlling the dwell time of the substrate underneath Ti and Cr targets. X-ray diffraction (XRD), nanoindentation and atomic force microscopy (AFM) were used to characterize the films. The XRD data showed 1st and 2nd order satellite reflections along the principal reflection for films having 132 A? ? ? ? 84 A?, thus confirming the formation of superlattice. The multilayer coatings exhibited hardness (H) as high as 3200 kg/mm2, which is 2 times the rule-of-mixtures value (i.e. HTiN = 2200 kg/mm2 and HCrN = 1000 kg/mm2). Detailed in...
TiAlN and CrN are gaining increasing importance in many industrial applications. To improve their me...
Hard and tough coatings in the form of Cr/CrN bilayers were produced by reactive magnetron sputterin...
CrN/CrAlN thin films were deposited by DC reactive magnetron sputtering. The influence of CrN/CrAlN ...
Multilayer superlattice coatings of TiN/CrN were deposited on silicon substrates using a reactive d....
Nanolayered TiN/CrN multilayer coatings were deposited on silicon substrates using a reactive DC mag...
Approximately 1.8 m thick nanolayered multilayer coatings of TiN/CrN (also known as superlattices) ...
We have deposited nanolayered multilayer coatings of TiN/NbN on silicon and tool steel substrates us...
Nanostructured TiN/NbN superlattices at various modulation wavelengths (?) were deposited on silicon...
The authors have fulfilled the primary objectives of this research program which were to establish t...
Since the early fundamental research on superlattice structured hard coatings in the late 1980s, rap...
AbstractCoherently grown nanolayered TiN/CrN thin films exhibit a superlattice effect in fracture to...
Single-phase CrN and CrAlN coatings were deposited on silicon and mild steel substrates using a reac...
Single layer TiN and NbN coatings were deposited on Si (111) and tool steel substrates using a react...
In a plot to improve the performance of steel mechanical parts subject to aggressive friction solici...
TiAlN and CrAlN coatings were prepared using a reactive direct current magnetron sputtering\ud syste...
TiAlN and CrN are gaining increasing importance in many industrial applications. To improve their me...
Hard and tough coatings in the form of Cr/CrN bilayers were produced by reactive magnetron sputterin...
CrN/CrAlN thin films were deposited by DC reactive magnetron sputtering. The influence of CrN/CrAlN ...
Multilayer superlattice coatings of TiN/CrN were deposited on silicon substrates using a reactive d....
Nanolayered TiN/CrN multilayer coatings were deposited on silicon substrates using a reactive DC mag...
Approximately 1.8 m thick nanolayered multilayer coatings of TiN/CrN (also known as superlattices) ...
We have deposited nanolayered multilayer coatings of TiN/NbN on silicon and tool steel substrates us...
Nanostructured TiN/NbN superlattices at various modulation wavelengths (?) were deposited on silicon...
The authors have fulfilled the primary objectives of this research program which were to establish t...
Since the early fundamental research on superlattice structured hard coatings in the late 1980s, rap...
AbstractCoherently grown nanolayered TiN/CrN thin films exhibit a superlattice effect in fracture to...
Single-phase CrN and CrAlN coatings were deposited on silicon and mild steel substrates using a reac...
Single layer TiN and NbN coatings were deposited on Si (111) and tool steel substrates using a react...
In a plot to improve the performance of steel mechanical parts subject to aggressive friction solici...
TiAlN and CrAlN coatings were prepared using a reactive direct current magnetron sputtering\ud syste...
TiAlN and CrN are gaining increasing importance in many industrial applications. To improve their me...
Hard and tough coatings in the form of Cr/CrN bilayers were produced by reactive magnetron sputterin...
CrN/CrAlN thin films were deposited by DC reactive magnetron sputtering. The influence of CrN/CrAlN ...