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Microstructure and Properties of TiC/Ti Coatings Deposited by the Supersonic Cold Gas Spray Technique

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Nanostructured, biocompatible, TiC/Ti Supersonic Cold Gas Sprayed coatings were deposited onto a Ti6Al4V alloy and their microstructure, wear resistance and hardness were investigated. The starting nanostructured powder, containing a varied mixture of Ti and TiC particles, was produced by high energy ball milling. Scanning and transmission electron microscopy, energy-dispersive X-ray spectroscopy, and X-ray diffraction were used for structural and chemical analyses of powder particles and coatings. Coatings, 250-350 μm thick, preserving the nanostructure and chemical powder composition, with low porosity and relatively high hardness (~850 HV), were obtained. These nanostructured TiC/Ti coatings exhibited better tribological properties than commonly used biomedical benchmark materials, due to an appropriate balance of hard and soft nano-phases.
Słowa kluczowe
Twórcy
autor
  • AGH-University of Science and Technology, Faculty of Metal Engineering and Industrial Computer Science, Al. Mickiewicza 30, 30-059 Kraków, Poland
autor
  • AGH-University of Science and Technology, Faculty of Metal Engineering and Industrial Computer Science, Al. Mickiewicza 30, 30-059 Kraków, Poland
autor
  • AGH-University of Science and Technology, Faculty of Metal Engineering and Industrial Computer Science, Al. Mickiewicza 30, 30-059 Kraków, Poland
autor
  • Thermal Spray Centre (CPT), DPT. Ciència Dels Materials i Enginyeria Metallúrgica, Universitat de Barcelona, Martí i Franques 1, E-08028, Barcelona, Spain
  • KU Leuven, Dept. MTM, Kasteelpark Arenberg 44, B-3001 Leuven, Belgium
  • Alhenia AG, 39 Täfernstrasse, Ch-5405 Baden, Switzerland
autor
  • CSGI and MBN Nanomaterialia, Via Bortolan 42, Vascon DI C. (TV), Italy
Bibliografia
  • [1] C. Leyens, M. Peters, eds., Titanium and titanium alloys, Wiley-VCh., Weinheim (2003).
  • [2] D. E. Alman, J. A. Hawk, The abrasive wear of sintered titanium matrix - ceramic particle reinforced composites, Wear 225-229, 629-639 (1999).
  • [3] J. M. Guilemany, S. Dosta, J. Nin, J. R. Miguel, Study of the Properties of WC-Co Nanostructured Coatings Sprayed by High-Velocity Oxyfuel, J. Therm. Spray Techn. 14 (3), 405-413 (2005).
  • [4] A. A. Voevodin, J. S. Zabinski, C. Muratore, Recent Advances in Hard, Tough, and Low Friction Nanocomposite Coatings, Tsinghua Sci. Technol. 10 (6), 665-679 (2005).
  • [5] S. A. M. Refaey, F. Taha, T. H. A. Hasanin, Passivation and Pitting Corrosion of Nanostructured Sn-Ni Alloy in NaCl Solutions, Electrochim. Acta 51 (14), 2942-2948 (2006).
  • [6] J. L. He, K. C. Chen, C. C. Chen, A. Leyland, A. Matthews, Cyclic Oxidation Resistance of Ni-Al Alloy Coatings Deposited on Steel by a Cathodic Arc Plasma Process, Surf. Coat. Technol. 135 (14), 158-165 (2001).
  • [7] E. P. Georgiou, S. Achanta, S. Dosta, J. Fernandez, P. Matteazzi, J. Kusinski, R. R. Piticescu, J.-P. Celis, Structural and tribological properties of supersonic sprayed Fe-Cu-Al-Al2O3 nanostructured cermets, Applied Surface Science 275, 142-147 (2013).
  • [8] A. Isalgue, J. Fernandez, N. Cinca, M. Villa, J. M. Guilemany, Mechanical and nanoindentation behaviour of TiC-NiTi thermal spray coatings, Journal of Alloys and Compounds 577S, S277-S281 (2013).
  • [9] G. Rasool, S. Mridha, M. M. Stack, Mapping wear mechanisms of TiC/Ti composite coatings, Wear 328-329, 498-508 (2015).
  • [10] B. G. X. Zhang, D. E. Myers, G. G. Wallace, M. Brandt, P. F. M. Choong, Bioactive Coatings for Orthopaedic Implants-Recent Trends in Development of Implant Coatings, Int. J. Mol. Sci. 15, 11878-11921 (2014).
  • [11] V. K. Champagne, The cold spray materials deposition process: Fundamentals and applications, CRC Press, Cambridge, (2007).
  • [12] P. Fauchais, A. Vardelle, B. Dussoubs, Quo vadis thermal spraying?, J. Therm. Spray Techn. 10, 44-66 (2001).
  • [13] T. Schmidt, F. Gartner, H. Assadi, H. Kreye, Development of a Generalized Parameter Window for Cold Spray Deposition, Acta Mater. 54 (3), 729-742 (2006).
  • [14] A. Moridi, S. Hassani-Gangaraj, M. Guagliano, M. Dao, Cold Spray Coating: Review of Material Systems and Future Perspectives, Surf. Eng. 30 (6), 369-395 (2014).
  • [15] P. Matteazzi, M. Alcala, Mechanomaking of Fe/Al2O3 and FeCr/Al2O3 Nanocomposites Powders Fabrication, Mater. Sci. Eng. A 230 (1-2), 161-170 (1997).
  • [16] S. Kac, G. Szwachta, J. Kusinski, P. Matteazzi, A. Colella, S. Dosta, J. Fernandez, J. Garcia-Forgas, Structural and chemical investigation into Ti/TiC coatings deposited with Cold Gas Spraying (CGS), Materials Enginieering 35 (2), 150-153 (2014).
  • [17] E. P. Georgiou, D. Drees, S. Dosta, P. Matteazzi, J. Kusinski, J.-P. Celis, Wear evaluation of nanostructured Ti cermets for joint reconstruction, Biotribology, doi: 10.1016/j.biotri.2017.03.007
Uwagi
EN
1. Financial supports from the Seventh Framework Programme EU “Supersonic deposition of nanostructured Surfaces“, acronym FP7-NMP-2008-LARGE-2, CP-IP-228814-2 and from the AGH University of Science and Technology project No 11.11.110.295 are gratefully acknowledged.
PL
2. Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b66057d5-9546-4524-a3a7-e142c81dac4f
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