Effect of nanostructured multilayer coatings on functional properties of tools

Kazimierz Czechowski

doi:10.1234/mechanik.2017.1.27

Kazimierz Czechowski Instytut Zaawansowanych Technologii Wytwarzania

DOI: https://doi.org/10.1234/mechanik.2017.1.27

Keywords: coatings, arc plasma PVD method, tools

Abstract

The state of the art of deposition of wear resistant coatings on cutting tools and cold forming tools is briefly reported. Some the PVD arc coatings developed and deposited at the Institute of Advanced Manufacturing Technology (IAMT) are discussed. The coatings structures are presented and the multilayer architecture in micro and nano-scale is revealed. Some results of the PVD arc coatings developed and deposited at the Institute are presented. These include nanostructured and multilayer coatings, which indicate the possibility of considerable increase in tool lives. The current trends in development of the coatings are briefly discussed.

References

Materiały informacyjne firm: Oerlikon-Balzers, Ionbond, Platit, Ceme-Con, Hauzer, SHM, Gühring, VUHZ; 2010–2016.

Czechowski K., Pofelska-Filip I., Królicka B., Szlosek P., Smuk B., Wszołek J., Kurleto A., Kasina J. “Effect of nitride nano-scale multilayer coatings on functional properties of composite ceramic cutting inserts”. Bulletin of the Polish Academy of Sciences. 53 (2005) 4: s. 425–431.

Wysiecki M. „Nowoczesne materiały narzędziowe stosowane w obróbce skrawaniem”. Warszawa: Wydawnictwa Naukowo-Techniczne, 1997.

Sanders D.M., Anders A. “Review of cathodic arc deposition technology at the start of the new millennium”. Surface and Coatings Technology. 133–134 (2000) 1: s. 78–90.

Panckow A.N. et al. “Application of a novel vacuum-arc ion-plating technology for the design of advanced wear resistant coatings”. Surface and Coatings Technology. 138 (2001) 1: s. 71–73.

Hovsepian P.Eh., Lewis D.B., Münz W.-D. “Recent progress in large scale manufacturing of multilayer/superlattice hard coatings”. Surface and Coatings Technology. 133–134 (2000): s. 166–175.

Veprek S. et al. “Composition, nanostructure and origin of the ultrahardness in nc-TiN/a-Si3N4/a-and nc-TiSi2 nanocomposites with Hv = 80 to ≥ 105 GPa”. Surface and Coatings Technology. 133–134 (2000): s. 152–159.

Holubar P., Jilek M., Sima M. “Present and possible future applications of superhard nanocomposite coatings”. Surface and Coatings Technology. 133–134 (2000): s. 145–151.

Krzanowski J.E. “Phase formation and phase separation in multiphase thin film hard coatings”. Surface and Coatings Technology. 188–189 (2004): s. 376–383.

Pesch P., Sattel S., Woestmann S., Ulrich S. “New multifunctional PVD-coating in the material system Cr-BCN-Si for steel sheet forming”. Surface and Coatings Technology. 200 (2005): s. 1065–1070.

Stein Ch., Keunecke M., Bewilogua K. et al. “Cubic boron nitride based coating systems with different interlayers for cutting inserts”. Surface and Coatings Technology. 205 (2011): s. S103–S106.

Luo Q. “Temperature dependent friction and wear of magnetron sputtered coating TiAlN/VN”. Wear. 271 (2011): s. 2058–2066.

Barthelma F., Frank H., Mahr P., Reich S. “Oxygen-improved hard coatings for high performance cutting processes”. Procedia CIRP. 1 (2012): s. 208–213.

Jakubeczyova D., Kocik M., Hvizdos P. “A study of PVD monoand multicomponent thin coatings for to OLS applications”. Metal. 15–17.05.2013, Brno, Czech Republik, EU.

Vereshchaka A.A., Vereshchaka A.S., Mgaloblishvili O., Morgan M.N., Batako A.D. “Nano-scale multilayered-composite coatings for the cutting tools”. International Journal of Advanced Manufacturing Technology. 72 (2014): s. 303–317.

Zhao S., Zhang J., Zhang Z., Wang S., Zhang Z.-g. “Microstructure and mechanical properties of (Ti,Al,Zr)N/(Ti,Al,Zr,Cr)N films on cemented carbide substrates”. International Journal of Minerals, Metallurgy and Materials. 21, 1 (2014): s. 77–81.

Bobzin K., Bagcivan N., Ewering M., Brugnara R.H., Basturk S. “Comparison of (Ti,Al)N and (Ti,Al)N/γ-Al2O3 coatings regarding tribological behavior and machining performance”. Surface and Coating Technology. 257 (2014): s. 58–62.

Hahn R., Bartosik M., Soler R., Kirchlechner C., Dehm G., Mayrhofer P.H. “Superlattice effect for enhanced fracture toughness of hard coatings”. Scripta Materialia. 124 (2016): s. 67–70.

Ou Y.X., Lin J., Tong S., Sproul W.D., Lei M.K. “Structure, adhesion and corrosion behavior of CrN/TiN superlattice coatings deposited by the combined deep oscillation magnetron sputtering and pulsed DC magnetron sputtering”. Surface and Coating Technology. 293 (2016): s. 21–27.