Comparative Study of the PVD Coatings on the Plasma Nitrided Steel

Medžiagotyra. 2012;18(1):40-44 DOI 10.5755/


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Journal Title: Medžiagotyra

ISSN: 1392-1320 (Print); 2029-7289 (Online)

Publisher: Kaunas University of Technology

Society/Institution: KTU

LCC Subject Category: Technology: Mining engineering. Metallurgy

Country of publisher: Lithuania

Language of fulltext: English

Full-text formats available: PDF, HTML



Andrei SURZHENKOV (Tallinn University of Technology)
Priit PÕDRA (Tallinn University of Technology)
Fjodor SERGEJEV (Tallinn University of Technology)
Mart SAARNA (Tallinn University of Technology)
Eron ADOBERG (Tallinn University of Technology)
Valdek MIKLI (Tallinn University of Technology)
Mart VILJUS (Tallinn University of Technology)
Priit KULU (Tallinn University of Technology)


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Time From Submission to Publication: 48 weeks


Abstract | Full Text

In the current study, the cracking, impact and sliding wear resistance of the PVD single layer TiN (I generation), multilayer (Ti,Al)N-ML (II generation), gradient (Al,Ti)N-G and multilayer nanocomposite FiVIc® (both – III generation) coatings on the nitrided low alloy steel 42CrMo4 are analysed. The cyclic indentation test (normal load 50 N, 10<sup> </sup>000 cycles) was carried out to determine the cracking resistance of the coatings. Impact wear test was performed at the normal load 16 N, strokes’ frequency 25 Hz, 10<sup>4</sup><sub> </sub>–<sub> </sub>10<sup>7</sup> strokes. Sliding wear test was applied, using the block-on-plate scheme, Ø 10 mm Al<sub>2</sub>O<sub>3</sub> ball as the counterbody, at the normal load of 10 N, the frequency 5 Hz, the amplitude 10 mm and the test duration 10 min. Best resistance to cracks’ formation is demonstrated by the gradient (Al,Ti)N-G coating, showing medium radial cracks’ formation, whereas delamination of the coating can be observed in other cases. 1.6<sub> </sub>–<sub> </sub>1.7 times higher impact wear resistance is shown by the TiN coating in comparison with the other coatings. The FiVIc® coating demonstrates lightly better resistance to sliding wear in comparison with the TiN and (Ti,Al)N-ML coatings due to a lower coefficient of friction. The worst sliding wear resistance is observed in the case of the (Al,Ti)N-G coating due to a high affinity of the coating’s and counterbody’s materials.<p>DOI: <a href=""></a></p>