Manufacturing Technology 2022, 22(1):20-25 | DOI: 10.21062/mft.2022.005

Study of Coatings Intended for Active Parts of Forming Tools Produced by Powder Metallurgy

Elena Kantoríková ORCID..., Ján Moravec ORCID...
Faculty of Mechanical Engineering, University of Zilina, Univerzitna 8215/1, 010 26 Žilina, Slovakia

The article deals with new types of coatings and their mechanical properties. CTRN and CRONAL are newly developed coatings intended for active parts of forming tools. Their behavior and mechanical properties are still under investigation. Coatings are used for functional components in various areas of industries, their de-velopment is constantly in process. The aim of the study and the experimental solution provides a compari-son of the mechanical properties of the new coatings with the well-known coatings DLC, TiN and TiSiN. The aim of the work was to perform an analysis of CTRN and CRONAL coatings and compare their me-chanical properties with other coatings. We chose the methods of nanoindentation, hardness measurement, scratch test and layer roughness. The results will allow easy determination of the proper coating for a suitable material. The results present the specific functionality of the individual coatings.

Keywords: Coating, Active parts tool, Mechanical properties, KTRN, CRONAL
Grants and funding:

This work was supported by project KEGA 022ŽU-4/2021 by Scientific Grant Agency of Ministry of Education of Slovak Republic.

Received: August 25, 2021; Revised: January 20, 2022; Accepted: January 26, 2022; Prepublished online: January 28, 2022; Published: February 26, 2022  Show citation

ACS AIP APA ASA Harvard Chicago IEEE ISO690 MLA NLM Turabian Vancouver
Kantoríková E, Moravec J. Study of Coatings Intended for Active Parts of Forming Tools Produced by Powder Metallurgy. Manufacturing Technology. 2022;22(1):20-25. doi: 10.21062/mft.2022.005.
Download citation

References

  1. SHARIFAHMADIAN, O., MAHBOUBI, F. (2019). Ceramics International, Comprehensive tribological study of optimized N-DLC/DLC coatings fabricated by active screen DC-pulsed PACVD technique. 16424-16432 Go to original source...
  2. XI-CHENG, W., FU RY, LI L. (2007). Surface and Coatings Technology 201:6922-6927. Go to original source...
  3. ZDRAVECKÁ, E., ONDÁČ, M. (2012). Tribológia povrchových vrstiev. Košice. Technická univerzita v Koši-ciach. 25 s. il. ISBN 978- 80-553-0885-2
  4. BEWILOGUA, K., BRAUER, G., DIETZ, A., GABLER, J., GOCH, G., KARPUSCHEWSKI, D., SZYSZK, B. (2009). Surface technology for automotive engineering. CIRP Annals - Manufacturing Technology 58 608-627 http: / /ees.elsevier.com/cirp/default.asp Go to original source...
  5. OERLIKON BLAZERS. (2015). www.oerlikon.com. http://www.oerlikon.com/balzers/cz/
  6. OSAKADA, I., K., MATSUMOTO, R. (2000). Annals of the ClRP Vol. 49. Fundamental Study of Dry Metal Forming with Coated Tools. Go to original source...
  7. WUHRER, R., YEUNG, WY. (2004). Scripta Mater. A comparative study of magnetron co-sputtered nanocrystalline titanium aluminium and chromium aluminium nitride coatings. Go to original source...
  8. LUO, D. B.; FRIDRICI, V.; KAPSA, P. (2011). Wear. A systematic approach for the selection of tribological coatings. pp 271(9 - 10): 2132 - 2143. Go to original source...
  9. DIVJAK, A., MODRIČ, D., KOVAČIČ, I., CVILJUŠAC, V. (2020). Technical Gazette. Anisotropic Mechanical Properties of Materials in Stereolithographic Additive Manufacturing. ISSN 1330-3651. pp 1748-1753.
  10. HANZL. P, ZETKOVÁ, I., KUČEROVÁ, L. (2019). Manufacturing Technology. Vol.19, No.1. pp. 37-41. Structural Changes and Microstructure of Maraging Steel Lattice Structures using Additive Manufacturing. ISSN 1213-2489. Go to original source...
  11. IHI IONBOND. (2015). IHI Engineering Review. https://www.ihi.co.jp/var/ezwebin_site/storage/original/application/5c70fac9d611ceaeab26a4f6c7c6ff6e.pdf.
  12. BEWILOGUA, K., BRÄUER, G., DIETZ, A., GÄBLER, J., GOCH, G., KARPUSCHEWSKI, B., SZYSZKA, B. (2009). Manufacturing Technology. Surface technology for automotive engineering, CIRP Annals, pp 608-627. Go to original source...
  13. ALI, H., YERBOLAT, G. ABILGAZIYEV, A., (2020). Manufacturing Technology. Vol.20, No.2. pp. 135-142. Modeling and Simulation of Composite Materials for SLS-Based 3D Printing. ISSN 1213-2489. DOI: 10.21062/mft.2020.041 Go to original source...
  14. SIVARAJAN, S., PADMANABHAN, R. (2015). Journal of Chemical and Pharmaceutical Sciences. pp. 381 - 385. Surface engineered coatings for automotive industries. ISSN: 0974-2115.
  15. ZHANG X. et al. (2018). Prog. Mater. Sci., vol. 96, pp. 217-321. Radiation damage in nanostructured materials. Go to original source...
  16. YU, K. Y.et al. (2012). J. Nucl. Mater., vol. 425, no. 1-3, pp. 140-146. "Radiation damage in helium ion irradiated nanocrystalline Fe." Go to original source...
  17. HOLMBERG, K. ERDEMIR, A. (2017). Costs Emiss. 5 pp 263-284. Influence of tribology on global energy consumption. https://link.springer.com/article/10.1007%2Fs40544-017-0183-5 Go to original source...
  18. NOWAK, B., JANUSZEWICZ, P. (2017). Surf. Coating.Technol. 329 pp 1-10. Surface & coatings technology morphology, mechanical and tribological properties of hybrid carbon layer fabricatedby radio frequency plasma assisted chemical vapor deposition. https://doi.org/10.1016/j.surfcoat.2017.09.001. Go to original source...
  19. BANERJI, A. BHOWMICK, B., ALPAS, A.T. (2014). Surf.Coatings Technol. 241 pp 93-104. High temperature tribological behavior of Wcontaining diamond-like carbon (DLC) coating against titanium alloys. Go to original source...
  20. PRŮCHA, V., BRICIN, D., KŘIŽ, A. (2019). Manufacturing Technology. Vol.19, No.1. pp. 129-134. Effect of Cryogenic Treatment on Properties of Cemented Carbides. ISSN 1213-2489 Go to original source...
  21. BÖHLER S290 - steel. http://www.noze-nuz.com/nozirske_oceli/s290.php
  22. VOESTALPINE. Uddeholm Vanadis 4 Extra SuperClean. https://www.uddeholm.com/slovakia/sk/products/uddeholm-vanadis-4-extra-superclean-2/
  23. EMUGE - FRANKEN. (2004). Handbuch der Gewindetechnik und Frästechnik. Anwendungen - Tipps - Tabellen. Germany.
  24. STATON s.r.o Turany. (2019). Ponuka povlakov. http://www.staton.sk/sluzby/povlakovanie/nasa-ponuka-povlakov/
  25. KONAR, R., MICIAN, M. (2019). Archives of Metallurgy and Materials, Vol. 64, Iss. 1, p. 353-357. Material ultrasonic attenuation influence on conventional ultrasonic non-destructive Copper alloy cast testing., ISSN 1733-3490, DOI: 10.24425/amm.2019.126259 Go to original source...
  26. PASTIRCAK, R., SCURY, J., BRUNA, M., BOLIBRUCHOVA, D. (2017). Archives of foundry engineering, Vol. 17, Iss. 2, pp. 75-78. Effect of Technological Parameters on the AlSi12 Alloy Microstructure During Crystallization Under Pressure. ISSN 2299-2944 Go to original source...
  27. DEMBICZAK, T., BALAGA, Z., OPYDO, M., KRUZEL, R., GARBIEC, D., DYNER, M. (2021). Manufacturing Technology. Vol.21, No.1. pp. 45-50. The Effect of the Binder Phase and Sintering Temperature on the Properties of Spark Plasma Sintering WC-Co Cemented Carbides. ISSN 1213-2489. DOI: 10.21062/mft.2021.002 Go to original source...
  28. PRŮCHA, V., BRICIN, D., KŘIŽ, A. (2019). Manufactoring Technology. Vol.19, No.1. pp. 129-134. Effect of Cryogenic Treatment on Properties of Cemented Carbides. ISSN 1213-2489 Go to original source...

This is an open access article distributed under the terms of the Attribution-NonCommercial 4.0 International License (CC BY-NC 4.0), which permits non-comercial use, distribution, and reproduction in any medium, provided the original publication is properly cited. No use, distribution or reproduction is permitted which does not comply with these terms.