Abstract
Carbide cutting tools are used for machining of machine parts made of complex alloyed materials. Application of protective composite nanostructured coatings on carbide cutting tools allows increasing the service life of cutting tools several times. The coating on their base protects the cobalt binding of carbide alloys. The low thermal conductivity of the composite nanostructured titanium carbide coating means that the heat generated when cutting workpieces is mostly transferred to the chips so that the tool does not become overheated. This is important when machining difficult alloyed, hard-to-machine, ductile materials for which the temperature at the contact zone of the cutting edge and the machined material reaches up to 900°C. The adhesive interaction of the composite nanostructured coating with the substrate material is of no small importance in selecting the coating composition. From this point of view, carbide titanium coatings have good compatibility with carbide cutting tools. Along with this, the study of ion-plasma composite nanostructured coatings based on TiC carbides is relevant. The study results of the composition and properties of vacuum composite nanostructured coatings based on titanium carbides obtained by the ion-plasma method are presented. Studies of the chemical composition, the electronic and atomic structure of composite nanostructured coatings based on Ti carbides were carried out using the HREELS, XPS, and AES method and based on experimental studies of composite nanostructured TiC coatings, the p – T – x diagrams for TiC were refined.
Highlights
Titanium carbide compounds, having high physic mechanical properties, are of great interest in connection with the possibility of application in various fields
Materials based on titanium carbide are used in medicine to manufacture implants, in metallurgy in the preparation of dispersion-strengthened hard alloys, in the oil-producing and woodworking industry, and other industries
The authors considered the features of the production methods and application of titanium carbide in Russia and abroad
Summary
Titanium carbide compounds, having high physic mechanical properties, are of great interest in connection with the possibility of application in various fields. Materials based on titanium carbide are used in medicine to manufacture implants, in metallurgy in the preparation of dispersion-strengthened hard alloys, in the oil-producing and woodworking industry, and other industries. In [1], an analysis of the current state of production and use of titanium carbide was carried out. The authors considered the features of the production methods and application of titanium carbide in Russia and abroad. 2. Spraying and surfacing of protective coatings
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