FUNCTIONAL MATERIALS, cilt.27, ss.100-106, 2019 (Scopus)
Using the methods of X-ray diffractometry, scanning electron microscopy with elemental microanalysis and nanoindentation, the possibilities of structural engineering of ion-plasma coatings based on the quasibinary WB2-TiB2 system were studied. The possibility of forming three phase-structural states was established: an X-ray amorphous (nanocluster) state at a low substrate temperature during deposition at T-S = 80 degrees C; a single-phase crystalline state at T-S = 300 degrees C; and a two-phase nanocrystalline state at large T-S. With the formation of a 2-phase state, the effect of nano-dispersing of crystallites was revealed. It is established that the highest hardness and elastic modulus are achieved in the coatings having a nanocrystalline structure with a texture. The highest hardness of 37.5 GPa was achieved in single-phase (W,Ti)B-2 coatings obtained at T-S = 300 degrees C. Models are discussed to explain the observed effects.