Resistance of heat-resistant yttrium-containing sealing coatings to mechanical fracture when forming cutting paths.
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Eurasian Physical Technical Journal
Abstract
According to the results of tribotechnical tests of coatings made of KNA-82 alloy ligatures with the
addition of yttrium of 0.1%, 0.3%, 0.5%, data were obtained that allowed us to establish the nature of changes in
the dynamic coefficient of friction over the test period and numerous values of the energy intensity of material wear.
The evaluation of coatings formed by the gas-flame and ion-plasma method was based on the following premise.
The maximum resistance to mechanical fracture is determined by the manifestation of a constant minimum value of
the dynamic coefficient of friction. This serves as an indicator of reduced friction force before reaching the fatigue
limit. Another key factor is the number of separated particles produced per unit of integral work during the friction
process. These evaluation parameters are lined up in a row by the number of points from 1 to 4. The maximum score
corresponds to the maximum resistance, i.e., a lower value of the energy intensity of material wear and the minimum
value of the stable friction coefficient. It has been determined that the same coincidence of these parameters
according to the scores is almost at all stages of testing (I-III) was the coating formed by the gas-flame method with
a yttrium concentration of 0.3%-0.5%. The exception was the coating formed by the ion-plasma method with a
yttrium concentration of 0.1% at the fourth stage of testing.
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Citation
Resistance of heat-resistant yttrium-containing sealing coatings to mechanical fracture when forming cutting paths / Kubich V. [et al.] // Eurasian Physical Technical Journal. – 2024. – Vol.21. – № 3(49). – pp. 81-92.