Publications

Oxidation of AlCuFe Quasicrystals: New Horizons of Research Surface properties of materials play a key role in many technological processes, from soldering and welding to coating and composites. In this regard, the wetting and adhesion characteristics of quasicrystals (QC) and complex metal alloys (CMA) are of considerable interest, since these materials exhibit a unique combination […]

Synthesis of nanostructured quasicrystals: new approach and results Ultrafast Synthesis of Nanostructured Quasi-Crystalline and Crystalline Phases of Al59Cu25.5Fe12.5B3 by High-Energy Ball Milling: Microhardness, Electrical Resistivity, and Solar Cell Absorption Studies The introduction of nanostructured materials has opened up new horizons for the creation of materials with unique properties. Quasicrystals, which have long-range order without periodicity, […]

New Materials: Reinforcement of Aluminum Alloys with Quasicrystals Reinforcement of metal alloys with quasicrystalline (QC) particles is a promising approach to creating new materials with improved mechanical properties. Quasicrystals, having a unique atomic structure, combine high hardness, low friction coefficient and good thermal stability, which makes them ideal reinforcing components for aluminum matrices. This work […]

 New technologies in nanoimprint lithography: AlCuFeB coating The introduction of new materials and technologies in nanoimprint lithography (NIL) requires a detailed study of their tribological properties. Coatings based on the AlCuFeB system are of interest due to their potential hardness, chemical inertness, and the possibility of controlled change of properties. The aim of this work […]

Study of tribological properties of quasicrystalline coatings Titanium alloys are widely used in various industries due to their high specific strength and corrosion resistance. However, their tribological properties, such as wear resistance and friction coefficient, often require improvement for applications in conditions of intense friction and wear. Quasi-crystalline materials, especially Al–Cu–Fe-based alloys, have unique properties […]

Study of the synthesis of complex AlCuFe coatings by PVD method In modern materials science, special attention is paid to the development and study of complex multicomponent coatings with unique physical and chemical properties. Among the promising materials, alloys based on aluminum, copper and iron, alloyed with boron (AlCuFe(B)) stand out, which demonstrate high hardness, […]

Research of metal matrix composite materials Metal matrix composite materials (MMCs) have attracted considerable attention due to their unique combination of strength, rigidity, and wear resistance. Reinforcement of a metal matrix with quasicrystal (QC) particles is a promising approach to creating materials with improved tribological properties. The cold spraying method (CSM) is an effective method […]

Effect of Ultrasonic Treatment on AMC Composite Materials The introduction of modern technologies in materials science opens up new horizons for the creation of composite materials with improved properties. Aluminum matrix composites (AMCs) reinforced with particles or fibers have attracted considerable attention due to their high strength-to-weight ratio, good corrosion resistance, and processability. This paper […]

Effect of AlCuFe Particle Size on the Properties of Aluminum Composites Ultrasonic shot peening (USP) is an effective method for modifying the surface layers of metals and alloys, improving their physical and mechanical properties, in particular, wear resistance and fatigue strength. This paper examines the effect of the size of reinforcing particles of the AlCuFe […]