The corrosion-resistant Ni-based coatings and their tribological properties

1. Liming L., Haifeng X., Jinkun X., Xinlong W., Ga Z., Chao Z.: Effect of heat treatment on structure and property evolutions of atmospheric plasma sprayed NiCrBSi coatings, Surface and Coatings Technology2017 (325), 548–554.10.1016/j.surfcoat.2017.07.011Search in Google Scholar

2. Kimbrough D.E., Cohen Y., Winer A.M., Creelman L., Mabuni, C.: A Critical Assessment of Chromium in the Environment, Critical Reviews in Environmental Science and Technology1999 (29), 1-46.10.1080/10643389991259164Search in Google Scholar

3. Margadanta N., Neuenschwander J., Staussa S., Kapsc, H., Kulkarnid A., Matejicek J., Rossler G.: Impact of probing volume from different mechanical measurement methods on elastic properties of thermally sprayed Ni-based coatings on a mesoscopic scale, Surface and Coatings Technology2006, (200), 2805–2820.10.1016/j.surfcoat.2005.02.201Search in Google Scholar

4. González R., Cadenas M., Fernández M., Cortizo J.L., Rodríguez E.: Wear behaviour of flame sprayed NiCrBSi coating remelted by flame or by laser Wear2007, (262), 301–307.10.1016/j.wear.2006.05.009Search in Google Scholar

5. Hejwowski T., Szewczyk S., Weronaski A.: An investigation of the abrasive and erosive wear of flame-sprayed coatings, Journal of Materials Processing Technology2000, (106), 54-57.10.1016/S0924-0136(00)00638-5Search in Google Scholar

6. Fernandez E., Cadenas M., Gonzalez R., Navas C., Fernandez R., Damborenea J.: Wear behaviour of laser clad NiCrBSi coating, Wear2005, (259), 870–875.10.1016/j.wear.2005.02.063Search in Google Scholar

7. Sadeghi E., Markocsan N., Joshi, S.: Advances in Corrosion-Resistant Thermal Spray Coatings for Renewable Energy Power Plants. Part I: Effect of Composition and Microstructure, Journal of Thermal Spray Technology2019, (28), 1749–1788.Search in Google Scholar

8. Serres N., Hlawka F., Costil S., Langlade C., Machi. F.: Microstructures of Metallic NiCrBSi Coatings Manufactured via Hybrid Plasma Spray and In Situ Laser Remelting Process, Journal of Thermal Spray Technology2011, (20), 336-343.10.1007/s11666-010-9565-1Search in Google Scholar

9. Zuomin L.: Abrasive wear control design of a metal thermal spray coating and its application, Tribology international2004, (301), 219-225.Search in Google Scholar

10. Zdravecká E., Suchánek J., Tkáčová J., Trpčevská J., Brinkiene K.: Investigation of wear resistance of high velocity oxy-fuel sprayed WC–Co and Cr₃C₂–NiCr coatings, Mechanika2010, (84), 75-79.Search in Google Scholar

11. Zdravecká E., Ondáč M., Slota J., Vojs M., Marton M.: Tribometer pre meranie abrazívneho opotrebenia – Tribo-meter for measurement of abrasion wear, SK200-2015 U1, Banská Bystrica, ÚPV SR, 2017, 7 (in Slovak).Search in Google Scholar

12. Yu J., Wang Y., Zhao X., Li Q., Qiao Q, Zhao J, Zhai S.: Wear Resistance of Ni-Based Alloy Coatings Advances in Materials Science and Engineering2019, 1-7.10.1155/2019/2548285Search in Google Scholar

13. Kim H.J., Hwang S.Y., Lee C.H, Philippe J.: Assessment of wear performance of flame sprayed and fused Ni-based coatings, Tribology Letters2003, (172), 262–269.10.1016/S0257-8972(03)00348-7Search in Google Scholar

14. Arcondeguy A., Grimaud A., Denoirjean A., Gasgnier G., Huguest C., Pateyron B., Montavon G.: Flame-sprayed glaze coatings: effects of operating parameters and feed-stock characteristics onto coating structures, Journal of Thermal Spray Technology2007, (16), 978–990.10.1007/s11666-007-9130-8Search in Google Scholar

15. Navas C., Colaço R., Damborenea J., Vitar R.: Abrasive wear behaviour of laser clad and flame sprayed-melted NiCrBSi coatings, Surface and Coatings Technology2006, (200), 6854–6862.10.1016/j.surfcoat.2005.10.032Search in Google Scholar

16. Yin S., Wang X., Suo X., Liao H., Guo Z., Li W., Coddet Ch.: Deposition behavior of thermally softened copper particles in cold spraying. Acta Materialia2013, (61), 5105–5118.10.1016/j.actamat.2013.04.041Search in Google Scholar

17. Miguel J.M., Guilemany J.M., Vizcaino S.: Tribological study of NiCrBSi coating obtained by different processes Tribology International2003, (36), 181–187.10.1016/S0301-679X(02)00144-5Search in Google Scholar

18. Zhang Z., Wang Z., Liang B.: Wear characterization of thermal spray welded Ni–Cr–Si–RE alloy coatings, Journal of Materials Processing Technology2009, (209), 1368-1374.10.1016/j.jmatprotec.2008.03.073Search in Google Scholar

19. Gonzáles R., Garcia M.A., Penuelas I., Cadenas M., Ma del Rocio Fernandez, M.R.; Hernandez, Battez A., Felgueroso, D.: Microstructural Study of NiCrBSi Coatings Obtained by Different Processes, Wear, 2007, (263), 619-624.10.1016/j.wear.2007.01.094Search in Google Scholar

20. Grum J., Slabe J.M.: Effect of Laser-Remelting of Surface Cracks on Microstructure and Residual Stresses in 12Ni Maraging Steel, Applied Surface Science,2006, (252), 4486-4492.10.1016/j.apsusc.2005.06.060Search in Google Scholar

21. Zhenyu Z., Zhiping W., Bunv L.: Wear characterization of thermal spray welded Ni–Cr–Si–RE alloy coatings, Journal of Materials Processing Technology2009, (209), 1368-1374.10.1016/j.jmatprotec.2008.03.073Search in Google Scholar

22. Okamoto H., Schlesinger M.E., Mueller E.M.: ASM Handbook Volume 3: Alloy Phase Diagrams. ASM International, 2016.10.31399/asm.hb.v03.9781627081634Search in Google Scholar

23. Bergant Z., Grum J.: Quality improvement of flame sprayed, heat treated, and remelted NiCrBSi coatings, Journal of Thermal Spray Technology2009, (18), 380–391.10.1007/s11666-009-9304-7Search in Google Scholar