Mechanical properties and microstructural evolution of TiN coatings alloyed with Al and Si

The microstructure and the tensile properties of an Al-8.9 wt.% Si-3.2 wt.% Cu-0.9 wt.% Fe-0.8% Zn alloy processed by spray forming was investigated. The alloy was gas atomized with argon and deposited onto a copper substrate. The microstructure was evaluated by optical microscopy (OM), scanning ele

The microstructure and the tensile properties of an Al-8.9 wt.% Si-3.2 wt.% Cu-0.9 wt.% Fe-0.8% Zn alloy processed by spray forming was investigated. The porosity level, the conditions of the heat treatment applied and the presence/addition of certain alloying elements to this alloy is known to grea

Motivated by the success of transition metal nanocomposite hard coatings, a new optically transparent coating based on the Al-Si-N ternary system was developed. Al-Si-N thin films were deposited by reactive DC magnetron co-sputtering of Al and Si targets in an Ar/N 2 atmosphere at 200 °C and 500 °C

Surface properties modification is an effective way to improve the performances of materials subjected to thermo-mechanical stress. Nanocomposite Ti-B-N based coatings have high hardness, while their behavior at elevated temperatures can be enhanced through the addition of other elements. Mechanical