The influence of multilayer architecture on the structure and mechanical properties of WN<sub>x</sub>/TiSiN coatings in comparison with WN<sub>x</sub> and TiSiN single layers

Sahul, Martin; Bočáková, B; Smyrnova, Kateryna; Haršáni, Marián; Truchlý, Martin; Kusý, Martin; Pogrebnjak, A.D.; Čaplovič, Ľubomír; Vopát, T

doi:10.1088/1742-6596/2413/1/012013

J. Phys.: Conf. Ser.

2022

DOI: 10.1088/1742-6596/2413/1/012013

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The influence of multilayer architecture on the structure and mechanical properties of WN_x/TiSiN coatings in comparison with WN_x and TiSiN single layers

Martin Sahul

B Bočáková

Kateryna Smyrnova

et al.

Abstract: The present work deals with the comparison of selected properties of WNx/TiSiN multilayer and respective WNx and TiSiN monolithic coatings that were deposited at the same parameters. The effect of the multilayer architecture on the structure and mechanical properties of WNx/TiSiN multilayer was studied in detail. The multilayers and monolayers were fabricated on high-speed steel substrates by unbalanced direct magnetron sputtering from W (purity 99.95 %) and Ti80Si20 (purity 99.50 %) targets. The chemical comp… Show more

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Composite Materials with Nanoscale Multilayer Architecture Based on Cathodic-Arc Evaporated WN/NbN Coatings

Smyrnova,

Sahul,

Haršáni

et al. 2024

ACS Omega

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Hard nitride coatings are commonly employed to protect components subjected to friction, whereby such coatings should possess excellent tribomechanical properties in order to endure high stresses and temperatures. In this study, WN/NbN coatings are synthesized by using the cathodic-arc evaporation (CA-PVD) technique at various negative bias voltages in the 50–200 V range. The phase composition, microstructural features, and tribomechanical properties of the multilayers are comprehensively studied. Fabricated coatings have a complex structure of three nanocrystalline phases: β-W2N, δ-NbN, and ε-NbN. They demonstrate a tendency for (111)-oriented grains to overgrow (200)-oriented grains with increasing coating thickness. All of the data show that a decrease in the fraction of ε-NbN phase and formation of the (111)-textured grains positively impact mechanical properties and wear behavior. Investigation of the room-temperature tribological properties reveals that with an increase in bias voltage from −50 to −200 V, the wear mechanisms change as follows: oxidative → fatigue and oxidative → adhesive and oxidative. Furthermore, WN/NbN coatings demonstrate a high hardness of 33.6–36.6 GPa and a low specific wear rate of (1.9–4.1) × 10–6 mm3/Nm. These results indicate that synthesized multilayers hold promise for tribological applications as wear-resistant coatings.

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Composite Materials with Nanoscale Multilayer Architecture Based on Cathodic-Arc Evaporated WN/NbN Coatings

Smyrnova,

Sahul,

Haršáni

et al. 2024

ACS Omega

View full text Add to dashboard Cite

show abstract

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The influence of multilayer architecture on the structure and mechanical properties of WN_x/TiSiN coatings in comparison with WN_x and TiSiN single layers

Cited by 1 publication

References 30 publications

Composite Materials with Nanoscale Multilayer Architecture Based on Cathodic-Arc Evaporated WN/NbN Coatings

Composite Materials with Nanoscale Multilayer Architecture Based on Cathodic-Arc Evaporated WN/NbN Coatings

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The influence of multilayer architecture on the structure and mechanical properties of WNx/TiSiN coatings in comparison with WNx and TiSiN single layers

Cited by 1 publication

References 30 publications

Composite Materials with Nanoscale Multilayer Architecture Based on Cathodic-Arc Evaporated WN/NbN Coatings

Composite Materials with Nanoscale Multilayer Architecture Based on Cathodic-Arc Evaporated WN/NbN Coatings

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The influence of multilayer architecture on the structure and mechanical properties of WN_x/TiSiN coatings in comparison with WN_x and TiSiN single layers