TRIBOCORROSION PROPERTIES OF BORIDED AND Al2O3-COATED NiTi MATERIAL

Yakup Uzun

doi:10.18185/erzifbed.1181562

Research Article

TRIBOCORROSION PROPERTIES OF BORIDED AND Al2O3-COATED NiTi MATERIAL

Year 2022, Volume: 15 Issue: 3, 873 - 884, 30.12.2022

Yakup Uzun

https://doi.org/10.18185/erzifbed.1181562

Abstract

The purpose of this study was to investigate the tribological properties of NiTi shape-memory alloy that was borided and coated with Al2O3 using the electrophoretic deposition (EPD) method. For the study, the sample surface was borided for 1 and 4 h at 800°C with the method of pack boriding, and the surface of the sample that was borided was coated with Al2O3 using the EPD method. The tribocorrosion properties of the untreated samples, borided samples, and borided and (duplex) Al2O3-coated samples were investigated and characterized using XRD and SEM devices. Accordingly, following the boriding treatment on the NiTi material, Al2O3 coating was successfully carried out with the EPD method. In comparison to the untreated samples, the tribocorrosion resistance of the surface-treated samples under a load of 3 N in a 3.5% NaCl solution increased. Additionally, among all samples, those that were subjected to the duplex surface treatment had the best tribocorrosion properties.

Keywords

NiTi, Boriding, EPD, Tribocorrosion

References

Kaya, E., Kaya, İ., (2020) Tool wear progression of PCD and PCBN cutting tools in high speed machining of NiTi shape memory alloy under various cutting speeds, Diamond and Related Materials, 105 107810.
Ramaiah, K., Saikrishna, C., Bhaumik, S., (2014) Ni24. 7 Ti50.3 Pd25.0 high temperature shape memory alloy with narrow thermal hysteresis and high thermal stability, Materials & Design, 56 78–83.
Shabalovskaya, S. A., (1996) Shape Memory Alloys for Biomedical Applications. Yoneyama, T., Miyazaki, S. (Eds.), Biocompatibility of Nitinol for biomedical applications (6 -267), Woodhead Publishing, England.
Petrini, L., Migliavacca, F., (2011) Biomedical applications of shape memory alloys, Journal of Metallurgy, 1-15.
Bil, C., Massey, K., Abdullah, E.J., (2013) Wing morphing control with shape memory alloy actuators, J. Intell. Mater. Syst. Struct., 24 (7) 879–898.
Pelletier, H., Muller, D., Mille, P., Grob, J., (2002) Structural and mechanical characterisation of boron and nitrogen implanted NiTi shape memory alloy. Surface and Coatings Technology, 158–159 309-317.
Uzun, Y., Yanıkoğlu, N., Kovacı, H., Yetim, A.F., Çelik, A., (2021) The effects of boriding on metal-ceramic bond strength of Co–Cr alloy fabricated by selective laser melting, Journal of Adhesion Science And Technology, 35(14) 1576–1591.
Aksöz, S., Bostan, B., Kaplan, Y., (2021) An Investigation on the Effects of Boronizing Process on Microstructure and Microhardness of NiTi Alloy Produced by P/M Technique, Journal of Polytechnic, 24 (2) 539-544.
Misra, S.K., Boccaccini, A.R., (2007) Tissue engineering using ceramics and polymers. Boccaccini, A.R., Gough J.E., (Eds.) (72), Woodhead Publishing Limited, England.
Boccaccini, A.R., Keim, S., Ma, R., Li, Y., Zhitomirsky, I. (2010) Electrophoretic deposition of biomaterials, J. R. Soc. Interface 7 581-613.
Bakhshandeh, S., & Amin Yavari, S. (2018) Electrophoretic deposition: A versatile tool against biomaterial associated infections, Journal of Materials Chemistry B, 6(8) 1128-1148.
Saji, V. S. (2021) Electrophoretic (EPD) coatings for magnesium alloys, Journal of Industrial and Engineering Chemistry, 103 358-372.
Boccaccini, A.R. and Zhitomirsky, I. (2002) Application of electrophoretic and electrolytic deposition techniques in ceramics processing, Current Opinion in Solid State & Materials Science, 6 251-260.
Béjar M. A., Moreno E., (2006) Abrasive wear resistance of boronized carbon and low-alloy steels, Journal of Materials Processing Technology, 173(3) 352-358.
Uzun, Y., Kovacı, H., Yetim, A. F., Çelik, A. (2019) Effect of boronizing on the structural, mechanical and tribological properties of CoCrW dental alloy produced by selective laser melting, Industrial Lubrication and Tribology, 71(3) 348–356.
Malinovschi, V., Marin, A., Negrea, D., Andrei, V., Coaca, E. Mihailescu, C. N., Lungu, C. P. (2018) Characterization of Al 2 O 3 /ZrO 2 composite coatings deposited on Zr-2.5Nb alloy by plasma electrolytic oxidation, Appl. Surf. Sci., 451169-179.
Sourani, F., Raeissi, K., Enayati, M. H., Kharaziha, M., Hakimizad, A., Blugan, G., Salimijazi, H. R., (2022) Corrosion and tribocorrosion behavior of ZrO2-Al2O3 composite coatings developed by plasma electrolytic oxidation for load-bearing implants, Journal of Alloys and Compounds, 920 165856.
Luo, Y., Wu, Y., Xiao, D., Tang, K., Huang, C., Fu, R. K. Y., Zheng, S., Chu P. K. (2019) Al2O3 coating for densification of SiC ceramics and sintering kinetics, Surf. Coat. Technol., 374 603-609.
Zhang, B., Wang, J., Yan, F., (2018) Load-dependent tribocorrosion behaviour of nickel-aluminium bronze in artificial seawater, Corros. Sci., 131 252-263.
Martini, C., Ceschini, L., Tarterini, F., Paillard, J.M., Curran, J.A., (2010). PEO layers obtained from mixed aluminate–phosphate baths on Ti–6Al–4V: Dry sliding behaviour and influence of a PTFE topcoat, Wear, 269 47-756.
Karakaş, M. S., Günen, A., Çarboğa, C., Karaca, Y., Demir, M., Altınay, Y., Erdoğan, A., (2021) Microstructure, some mechanical properties and tribocorrosion wear behavior of boronized Al0.07Co1.26 Cr1.80Fe1.42Mn1.35 Ni1.10 high entropy alloy, J. Alloy. Compd., 886 161222.
Pina, V.G., Amigó, V., Muñoz A.I. (2016) Microstructural, electrochemical and tribo-electrochemical characterisation of titanium-copper biomedical alloys, Corros. Sci., 109 115-125.
Sampaio, M., Buciumeanu, M., Henriques, B., Silva, F. S., Souza, J. C. M., Gomes J. R., (2016) Comparison between PEEK and Ti6Al4V concerning micro-scale abrasion wear on dental applications, J. Mech. Behav. Biomed. Mater., 60 212-219.

Year 2022, Volume: 15 Issue: 3, 873 - 884, 30.12.2022

Yakup Uzun

https://doi.org/10.18185/erzifbed.1181562

Abstract

References

Kaya, E., Kaya, İ., (2020) Tool wear progression of PCD and PCBN cutting tools in high speed machining of NiTi shape memory alloy under various cutting speeds, Diamond and Related Materials, 105 107810.
Ramaiah, K., Saikrishna, C., Bhaumik, S., (2014) Ni24. 7 Ti50.3 Pd25.0 high temperature shape memory alloy with narrow thermal hysteresis and high thermal stability, Materials & Design, 56 78–83.
Shabalovskaya, S. A., (1996) Shape Memory Alloys for Biomedical Applications. Yoneyama, T., Miyazaki, S. (Eds.), Biocompatibility of Nitinol for biomedical applications (6 -267), Woodhead Publishing, England.
Petrini, L., Migliavacca, F., (2011) Biomedical applications of shape memory alloys, Journal of Metallurgy, 1-15.
Bil, C., Massey, K., Abdullah, E.J., (2013) Wing morphing control with shape memory alloy actuators, J. Intell. Mater. Syst. Struct., 24 (7) 879–898.
Pelletier, H., Muller, D., Mille, P., Grob, J., (2002) Structural and mechanical characterisation of boron and nitrogen implanted NiTi shape memory alloy. Surface and Coatings Technology, 158–159 309-317.
Uzun, Y., Yanıkoğlu, N., Kovacı, H., Yetim, A.F., Çelik, A., (2021) The effects of boriding on metal-ceramic bond strength of Co–Cr alloy fabricated by selective laser melting, Journal of Adhesion Science And Technology, 35(14) 1576–1591.
Aksöz, S., Bostan, B., Kaplan, Y., (2021) An Investigation on the Effects of Boronizing Process on Microstructure and Microhardness of NiTi Alloy Produced by P/M Technique, Journal of Polytechnic, 24 (2) 539-544.
Misra, S.K., Boccaccini, A.R., (2007) Tissue engineering using ceramics and polymers. Boccaccini, A.R., Gough J.E., (Eds.) (72), Woodhead Publishing Limited, England.
Boccaccini, A.R., Keim, S., Ma, R., Li, Y., Zhitomirsky, I. (2010) Electrophoretic deposition of biomaterials, J. R. Soc. Interface 7 581-613.
Bakhshandeh, S., & Amin Yavari, S. (2018) Electrophoretic deposition: A versatile tool against biomaterial associated infections, Journal of Materials Chemistry B, 6(8) 1128-1148.
Saji, V. S. (2021) Electrophoretic (EPD) coatings for magnesium alloys, Journal of Industrial and Engineering Chemistry, 103 358-372.
Boccaccini, A.R. and Zhitomirsky, I. (2002) Application of electrophoretic and electrolytic deposition techniques in ceramics processing, Current Opinion in Solid State & Materials Science, 6 251-260.
Béjar M. A., Moreno E., (2006) Abrasive wear resistance of boronized carbon and low-alloy steels, Journal of Materials Processing Technology, 173(3) 352-358.
Uzun, Y., Kovacı, H., Yetim, A. F., Çelik, A. (2019) Effect of boronizing on the structural, mechanical and tribological properties of CoCrW dental alloy produced by selective laser melting, Industrial Lubrication and Tribology, 71(3) 348–356.
Malinovschi, V., Marin, A., Negrea, D., Andrei, V., Coaca, E. Mihailescu, C. N., Lungu, C. P. (2018) Characterization of Al 2 O 3 /ZrO 2 composite coatings deposited on Zr-2.5Nb alloy by plasma electrolytic oxidation, Appl. Surf. Sci., 451169-179.
Sourani, F., Raeissi, K., Enayati, M. H., Kharaziha, M., Hakimizad, A., Blugan, G., Salimijazi, H. R., (2022) Corrosion and tribocorrosion behavior of ZrO2-Al2O3 composite coatings developed by plasma electrolytic oxidation for load-bearing implants, Journal of Alloys and Compounds, 920 165856.
Luo, Y., Wu, Y., Xiao, D., Tang, K., Huang, C., Fu, R. K. Y., Zheng, S., Chu P. K. (2019) Al2O3 coating for densification of SiC ceramics and sintering kinetics, Surf. Coat. Technol., 374 603-609.
Zhang, B., Wang, J., Yan, F., (2018) Load-dependent tribocorrosion behaviour of nickel-aluminium bronze in artificial seawater, Corros. Sci., 131 252-263.
Martini, C., Ceschini, L., Tarterini, F., Paillard, J.M., Curran, J.A., (2010). PEO layers obtained from mixed aluminate–phosphate baths on Ti–6Al–4V: Dry sliding behaviour and influence of a PTFE topcoat, Wear, 269 47-756.
Karakaş, M. S., Günen, A., Çarboğa, C., Karaca, Y., Demir, M., Altınay, Y., Erdoğan, A., (2021) Microstructure, some mechanical properties and tribocorrosion wear behavior of boronized Al0.07Co1.26 Cr1.80Fe1.42Mn1.35 Ni1.10 high entropy alloy, J. Alloy. Compd., 886 161222.
Pina, V.G., Amigó, V., Muñoz A.I. (2016) Microstructural, electrochemical and tribo-electrochemical characterisation of titanium-copper biomedical alloys, Corros. Sci., 109 115-125.
Sampaio, M., Buciumeanu, M., Henriques, B., Silva, F. S., Souza, J. C. M., Gomes J. R., (2016) Comparison between PEEK and Ti6Al4V concerning micro-scale abrasion wear on dental applications, J. Mech. Behav. Biomed. Mater., 60 212-219.

There are 23 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Makaleler
Authors	Yakup Uzun 0000-0002-5134-7640
Early Pub Date	December 27, 2022
Publication Date	December 30, 2022
Published in Issue	Year 2022 Volume: 15 Issue: 3

Cite

APA	Uzun, Y. (2022). TRIBOCORROSION PROPERTIES OF BORIDED AND Al2O3-COATED NiTi MATERIAL. Erzincan University Journal of Science and Technology, 15(3), 873-884. https://doi.org/10.18185/erzifbed.1181562

Download Cover Image

Article Files

Full Text