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CoCrMo Alaşımı Üzerine TaN Esaslı İnce Film Kaplamaların Yüzey Özelliklerinin İncelenilmesi

Yıl 2019, Cilt: 9 Sayı: 2, 223 - 237, 15.12.2019
https://doi.org/10.31466/kfbd.561652

Öz

CoCrMo alaşımı, yüksek darbe ve yorulma dayanımı gibi özellikleri sayesinde ortopedik implant malzemesi olarak yaygın kullanılmaktadır. Bu alaşım yüksek korozyon dayanımı göstermesine rağmen düşük aşınma dayanımına sahiptir. Yapay eklem implant malzemesi olarak kullanıldığında, korozif vücut sıvısı nedeniyle düşük sürtünme özelliği ve düşük korozyon direnci göstermekte olup kısa sürelerde aşınmalara maruz kalmaktadırlar. Bu nedenle, CoCrMo alaşım yüzeyine korozyonu ve aşınma direncini geliştirmek için yüzey kaplama işlemi yapılmaktadır. Bu çalışmada CoCrMo alaşımının yüzeyinin tribolojik özelliklerini geliştirmek için kapalı alanda dengesiz magnetron püskürtme işlemi ile çok katmanlı kaplanmıştır. Kaplama mimarisi Cr/CrN/CrCN/TaN dizilimine sahip olup tabaka sayısı iki, dört ve sekizdir. Kaplamaların tribolojik özelliklerini karakterize etmek için disk üzerinde pin aşınma testi, sertlik ve yüzey pürüzlülüğü ölçümleri yapılmıştır. Sonuçlar, alaşımın tribolojik özelliklerinin önemli ölçüde arttığını göstermiştir. Tabaka sayısının artması ile örneklerin aşınma dayanımı, sertliği ve yüzey kalitesinin arttığı gözlenmiştir.

Destekleyen Kurum

İnönü Üniversitesi BAP

Proje Numarası

IBAP ID975

Teşekkür

Yüzey kaplama işlemlerinin gerçekleştirilmesinde laboratuvarlarını açarak bizlere yardımcı olan Prof. Dr. İhsan Efeoğlu’na teşekkürlerimizi sunarız.

Kaynakça

  • Geetha ,M., Singh, A.K., Asokamani R., Gogia, A.K., (2009). Ti based biomaterials, the ultimate choice for orthopaedic implants – A review, Progress in Materials Science,Vol. 54, 397–425.
  • Chen, Q., Chen, P., Pang, X., Hu, Y., Zhang ,Y., (2015). Adrenomedullin Up-regulates the Expression of Vascular Endothelial Growth Factor in Epithelial Ovarian Carcinoma Cells via JNK/AP-1 Pathway Int J Gynecol Cancer,Vol. 25, 1-6.
  • Agarwal, R., García, A. J.,(2015). Biomaterial strategies for engineering implants for enhanced 2 osseointegration and bone repai, Advanced Drug Delivery Reviews, Vol. 94, 53-62.
  • Güven, Ş.Y.(2014). Biyouyumluluk ve biyomalzemelerin seçimi”, Suleyman Demirel University Journal of Engineering Sciences and Design, Suleyman Demirel University Journal of Engineering Sciences and Design, Vol. 2(3), 303-311,
  • Martinez-Nogues, V., Nesbitt , J.M., Wood , R.J.K., Cook, R.B,(2016). Nano-scale wear characterization of CoCrMo biomedical alloys, Tribology International, Vol. 93, 563-572.
  • Affatato, S., & Grillini, L. (2013). Topography in bio-tribocorrosion. Bio-Tribocorrosion in Biomaterials and Medical Implants, 1–22a, UK: Woodhead Publishing Limited.Gottman I., Gutmanas E.Y., Hunter G. 2011. “Wear-Resistant Ceramic Films and Coatings”, Comprehensive Biomaterials, 1, Pages 127-155.
  • Wang, Q., Zhang, L., Dong, J., (2010). Effects of Plasma Nitriding on Microstructure and Tribological Properties of CoCrMo Alloy Implant Material , Journal of Bionic Engineering, Vol. 7, 337-344.
  • McEntire, B. J., Bal, B.S., Rahaman, M.N., Chevalier, J., Pezzotti ,G.,(2015). Ceramics and ceramic coatings in orthopaedics, Journal of the European Ceramic Society,35, 4327-4369.
  • Glewicz, A., Warcholinski, B., (2014). Tribological Properties of CrCN/CrN multilayer coatings, Tribology International,80,34-40.
  • Holmberg, K., Matthews, A.,(2009). COATINGS TRIBOLOGY Properties, Mechanisms, Techniques and Applications in Surface Engineering (2. Baskı). UK: Elsevier.
  • Wen,C., (2015). Surface Coating and Modification of Metallic Biomaterials (1. Baskı). UK: Woodhead Publishing.
  • Griesser, H.J., (2016). Thin Film Coatings for Biomaterials and Biomedical Applications. (1.Baskı). UK: Woodhead Publishing.
  • Zhang, T.F., Liu, B., Wu, B.J., Liu J., Sun, H., Leng, Y.X., Huang, X.,(2014). The stability of DLC film on nitrided CoCrMo alloy in phosphate buffer solution, Applied Surface Science, 308, 100–105.
  • Di T., Mingjiang, D., Wenbin, F., L Songsheng, l., Chunbei, W., Mingchun, Z. ,(2015). Performance of CoCrMo Alloy with Me-Doped DLC Coatings Prepared by a Magnetron Sputtering Method, Rare Metal Materials and Engineering,44(12), 2982-2986.
  • Liu ,C., Zhou, Z., Li, K.Y.,(2017). Improved corrosion resistance of CoCrMo alloy with self-passivation ability facilitated by carbon ion implantation, Electrochimica Acta, 241, 331–340.
  • Canto, C.E., Andrade ,E., Rocha, M.F., Alemon, B., Flores, M.,(2017). Adhesive and tribocorrosive behaviour of TiAlPtN/TiAlN/TiAl multilayers sputtered coatings over CoCrMo, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 406 (Part A), 32-37.
  • Alemón ,B., Flores, M., Ramírez, W., Huegel, J.C., Broitman, E. ,(2015). Tribo corrosion behavior and ions release of CoCrMo alloy coated with a TiAlVCN/CNx multilayer in simulated body fluid plus bovine serum albumin, TribologyInternational, 81, 159-168.
  • Chen, S., Wu, B.H., Xie D., Jiang ,F., Liu, J., Sun, H.L., Zhu, S., Bai, B., Leng ,Y.X., Huang ,N., Sun, H. (2014). The adhesion and corrosion resistance of Ti–O films on CoCrMo alloy fabricated by high power pulsed magnetron sputtering (HPPMS), Surface & Coatings Technology, 252, 8–14.
  • Lapaj, L., Wendland ,J., Markuszewski ,J., Mroz ,A., Wisniewski, T. (2015). Retrieval analysis of titanium nitride (TiN) coated prosthetic femoral heads articulating with polyethylene, journal of the mechanical behavior of biomedical materials, 55, 127–139.
  • Van Hove, R.P., Sierevelt, I.N., van Royen ,B.J., Nolte ,P.A. (2015). Titanium-Nitride Coating of Orthopaedic Implants: A Review of the Literature, BioMed Research International, Article ID 485975, 9 pages.
  • Hauert R., Thorwarth K., Thorwarth G., (2013). An overview on diamond-like carbon coatings in medical applications, Surface & Coatings Technology, 233, 119–130.
  • Warcholinski B., Glewicz A. ,(2011). The Properties of Multilayer CrCN/CrN Coatings Dependent on Their Architecture, Plasma Process. Polym. 8, 333–339.
  • Lamastra, F.R. Leonardi, F., Montanari R., Casadei F., Valente T., Gusmano G.,(2006). X-ray residual stress analysis on CrN/Cr/CrN multilayer PVD coatings deposited on different steel substrates , Surface & Coatings Technology, 200, 6172–6175.
  • Elangovan, T., Kuppusami, P., Thirumurugesan, R., Ganesan ,V., Mohandas, E., Mangalaraj, D.,(2010). Nanostructured CrN thin films prepared by reactive pulsed DC magnetron sputtering, Materials Science and Engineering B, 167, 17–25.
  • Lee, J.W., Tien, S.K., Kuo ,Y.C.,(2006). The effects of pulse frequency and substrate bias to the mechanical properties of CrN coatings deposited by pulsed DC magnetron sputtering Thin Solid Films 494 2006: pp. 161 – 167.

Investigation of the Surface Properties TaN Based Thin Film Coatings on the CoCrMo Alloy

Yıl 2019, Cilt: 9 Sayı: 2, 223 - 237, 15.12.2019
https://doi.org/10.31466/kfbd.561652

Öz

CoCrMo alloy is widely used as orthopedic implant material thanks to its properties like high impact and fatigue strength. This alloy has high corrosion strength but low wear strength. When it is used as an artificial joint implant material it subjects to both wear and corrosion because of the aggressive body fluid in terms of corrosion. Therefore, the surface coating process is applied to CoCrMo alloys to improve the corrosion and wear strength together. In this study, in order to improve the tribological properties of CoCrMo alloy, its surface was multilayer coated via close field unbalanced magnetron sputtering process. Coating architecture was of Cr/CrN/CrCN/TaN and the number of the layers were two, four and eight. Pin-on-disk wear test, hardness and surface roughness measurements were performed to characterize the tribological properties of the coatings. Results showed that as a result of coating process tribological properties of the alloy were improved significantly. It is observed that with increasing number of layer, wear strength, hardness and surface quality of the samples improved.

Proje Numarası

IBAP ID975

Kaynakça

  • Geetha ,M., Singh, A.K., Asokamani R., Gogia, A.K., (2009). Ti based biomaterials, the ultimate choice for orthopaedic implants – A review, Progress in Materials Science,Vol. 54, 397–425.
  • Chen, Q., Chen, P., Pang, X., Hu, Y., Zhang ,Y., (2015). Adrenomedullin Up-regulates the Expression of Vascular Endothelial Growth Factor in Epithelial Ovarian Carcinoma Cells via JNK/AP-1 Pathway Int J Gynecol Cancer,Vol. 25, 1-6.
  • Agarwal, R., García, A. J.,(2015). Biomaterial strategies for engineering implants for enhanced 2 osseointegration and bone repai, Advanced Drug Delivery Reviews, Vol. 94, 53-62.
  • Güven, Ş.Y.(2014). Biyouyumluluk ve biyomalzemelerin seçimi”, Suleyman Demirel University Journal of Engineering Sciences and Design, Suleyman Demirel University Journal of Engineering Sciences and Design, Vol. 2(3), 303-311,
  • Martinez-Nogues, V., Nesbitt , J.M., Wood , R.J.K., Cook, R.B,(2016). Nano-scale wear characterization of CoCrMo biomedical alloys, Tribology International, Vol. 93, 563-572.
  • Affatato, S., & Grillini, L. (2013). Topography in bio-tribocorrosion. Bio-Tribocorrosion in Biomaterials and Medical Implants, 1–22a, UK: Woodhead Publishing Limited.Gottman I., Gutmanas E.Y., Hunter G. 2011. “Wear-Resistant Ceramic Films and Coatings”, Comprehensive Biomaterials, 1, Pages 127-155.
  • Wang, Q., Zhang, L., Dong, J., (2010). Effects of Plasma Nitriding on Microstructure and Tribological Properties of CoCrMo Alloy Implant Material , Journal of Bionic Engineering, Vol. 7, 337-344.
  • McEntire, B. J., Bal, B.S., Rahaman, M.N., Chevalier, J., Pezzotti ,G.,(2015). Ceramics and ceramic coatings in orthopaedics, Journal of the European Ceramic Society,35, 4327-4369.
  • Glewicz, A., Warcholinski, B., (2014). Tribological Properties of CrCN/CrN multilayer coatings, Tribology International,80,34-40.
  • Holmberg, K., Matthews, A.,(2009). COATINGS TRIBOLOGY Properties, Mechanisms, Techniques and Applications in Surface Engineering (2. Baskı). UK: Elsevier.
  • Wen,C., (2015). Surface Coating and Modification of Metallic Biomaterials (1. Baskı). UK: Woodhead Publishing.
  • Griesser, H.J., (2016). Thin Film Coatings for Biomaterials and Biomedical Applications. (1.Baskı). UK: Woodhead Publishing.
  • Zhang, T.F., Liu, B., Wu, B.J., Liu J., Sun, H., Leng, Y.X., Huang, X.,(2014). The stability of DLC film on nitrided CoCrMo alloy in phosphate buffer solution, Applied Surface Science, 308, 100–105.
  • Di T., Mingjiang, D., Wenbin, F., L Songsheng, l., Chunbei, W., Mingchun, Z. ,(2015). Performance of CoCrMo Alloy with Me-Doped DLC Coatings Prepared by a Magnetron Sputtering Method, Rare Metal Materials and Engineering,44(12), 2982-2986.
  • Liu ,C., Zhou, Z., Li, K.Y.,(2017). Improved corrosion resistance of CoCrMo alloy with self-passivation ability facilitated by carbon ion implantation, Electrochimica Acta, 241, 331–340.
  • Canto, C.E., Andrade ,E., Rocha, M.F., Alemon, B., Flores, M.,(2017). Adhesive and tribocorrosive behaviour of TiAlPtN/TiAlN/TiAl multilayers sputtered coatings over CoCrMo, Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 406 (Part A), 32-37.
  • Alemón ,B., Flores, M., Ramírez, W., Huegel, J.C., Broitman, E. ,(2015). Tribo corrosion behavior and ions release of CoCrMo alloy coated with a TiAlVCN/CNx multilayer in simulated body fluid plus bovine serum albumin, TribologyInternational, 81, 159-168.
  • Chen, S., Wu, B.H., Xie D., Jiang ,F., Liu, J., Sun, H.L., Zhu, S., Bai, B., Leng ,Y.X., Huang ,N., Sun, H. (2014). The adhesion and corrosion resistance of Ti–O films on CoCrMo alloy fabricated by high power pulsed magnetron sputtering (HPPMS), Surface & Coatings Technology, 252, 8–14.
  • Lapaj, L., Wendland ,J., Markuszewski ,J., Mroz ,A., Wisniewski, T. (2015). Retrieval analysis of titanium nitride (TiN) coated prosthetic femoral heads articulating with polyethylene, journal of the mechanical behavior of biomedical materials, 55, 127–139.
  • Van Hove, R.P., Sierevelt, I.N., van Royen ,B.J., Nolte ,P.A. (2015). Titanium-Nitride Coating of Orthopaedic Implants: A Review of the Literature, BioMed Research International, Article ID 485975, 9 pages.
  • Hauert R., Thorwarth K., Thorwarth G., (2013). An overview on diamond-like carbon coatings in medical applications, Surface & Coatings Technology, 233, 119–130.
  • Warcholinski B., Glewicz A. ,(2011). The Properties of Multilayer CrCN/CrN Coatings Dependent on Their Architecture, Plasma Process. Polym. 8, 333–339.
  • Lamastra, F.R. Leonardi, F., Montanari R., Casadei F., Valente T., Gusmano G.,(2006). X-ray residual stress analysis on CrN/Cr/CrN multilayer PVD coatings deposited on different steel substrates , Surface & Coatings Technology, 200, 6172–6175.
  • Elangovan, T., Kuppusami, P., Thirumurugesan, R., Ganesan ,V., Mohandas, E., Mangalaraj, D.,(2010). Nanostructured CrN thin films prepared by reactive pulsed DC magnetron sputtering, Materials Science and Engineering B, 167, 17–25.
  • Lee, J.W., Tien, S.K., Kuo ,Y.C.,(2006). The effects of pulse frequency and substrate bias to the mechanical properties of CrN coatings deposited by pulsed DC magnetron sputtering Thin Solid Films 494 2006: pp. 161 – 167.
Toplam 25 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Erkan Bahçe 0000-0001-5389-5571

Ali Kemal Aslan Bu kişi benim 0000-0001-6390-9009

Neşe Çakır Bu kişi benim 0000-0002-7178-5904

Mehmet Sami Güler 0000-0003-0414-7707

Proje Numarası IBAP ID975
Yayımlanma Tarihi 15 Aralık 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 9 Sayı: 2

Kaynak Göster

APA Bahçe, E., Aslan, A. K., Çakır, N., Güler, M. S. (2019). CoCrMo Alaşımı Üzerine TaN Esaslı İnce Film Kaplamaların Yüzey Özelliklerinin İncelenilmesi. Karadeniz Fen Bilimleri Dergisi, 9(2), 223-237. https://doi.org/10.31466/kfbd.561652