И. В. Блинков scite author profile

In coated tools, the grain boundaries and coating layers are areas of intense energy dissipation, which hardens the coating material by increasing its toughness and its resistance to the formation and development of cracks. An increase in the efficiency of the coatings was achieved by applying nano-dispersed multilayer composite structure. This paper proposes using nano-scale multilayer composite coating based on TiN-CrN compound to improve thermal stability, where, barrier layers based on ZrNbN have been introduced. The ZrNbN barrier does not interact with TiN and CrN at temperatures around 1000°C. The influence of process parameters of the filtered cathodic vacuum arc deposition on the composition, structure and properties of the coatings based on variation of TiAlN-ZrNbN-CrN was analyzed. The results presented here show that the hardness of the developed coatings was as high as 38 GPa. Subsequently, the carbide tools used in this study with the new coatings had an increased lifetime of 1.5-2.0 times compared to tools with commercial coatings. The coated tools were tested in turning and milling of steels, nickel and titanium alloys.

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The effect of Cu and Ni on the nanostructure and properties of arc-PVD coatings based on titanium nitride

Белов

Блинков

Volkhonskii

2014

Surface and Coatings Technology

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Wear behaviour of wear-resistant adaptive nano-multilayered Ti-Al-Mo-N coatings

Сергевнин

Блинков

Volkhonskii

et al. 2016

Applied Surface Science

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Abrasive, hydroabrasive, and erosion wear behaviour of nanostructured (Ti,Al)N-Cu and (Ti,Al)N-Ni coatings

Белов

Блинков

Сергевнин

et al. 2018

Surface and Coatings Technology

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Wear and erosion of arc-PVD multilayer Ti-Al-Mo-N coatings under various conditions of friction and loading

Сергевнин

Блинков

Белов

et al. 2018

Int J Adv Manuf Technol

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