Metallic alloys are, by essence, ductile and stiff and can support loads without sudden
rupture. This ductility becomes a disadvantage when applications require wear resistance …

Nitride-based coatings are nowadays widely studied both from fundamental and
technological point of views due to their unique physical and mechanical properties. Among …

This book presents the state of the art of the synthesis of materials, composites, and
chemical compounds, and describes methods based on the use of ionizing radiation. It is …

The application of a negative substrate bias during physical vapor deposition can have
important effects on the surface morphology, structure and properties of ceramic-based …

Thin films of Ni–TiN nanocomposites have been deposited on Si (100) substrate at Ar: N2=
1: 1, 1: 2 or 1: 3 at ambient temperature by reactive co-sputtering of Ti and Ni targets used as …

Incorporation of Ni can have intriguing effects on the phase composition, microstructure and
mechanical characteristics of titanium nitride coatings synthesised by physical vapour …

Abstract Metal–ceramic TiN–Cu (TiN–Ni) coatings with metal contents from 0 to 20–26 at.%
can be synthesised by filtered vacuum arc deposition of carbide cutting tools. Adding metals …

A comparative study has been carried out on microstructural evolution, surface roughness,
nanoindentation and scratch behavior, electrical resistivity, and corrosion resistance of Ni 1 …

Closed-field unbalanced magnetron sputtering ion plating (CFUMSIP) is a versatile
technique for the preparation of high-quality coatings due to the enhancement of plasma …

Nanocomposite thin films with TiN dispersed in Ni matrix were deposited in an environment
having Ar: N 2= 1: 2 on silicon (100) substrate with bias of− 60 V at 300° C, 500° C or 700° C …