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Microstructure and properties of CoCr alloys used in prosthetics procedure

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of this work was to define the influence of manufacturing technology on the chemical composition, surface topography, physicochemical and electrochemical properties of CoCr alloys obtained by casting technology and Direct Metal Laser Sintering. Design/methodology/approach: This work presents microstructural and chemical compositions obtained by scanning electron microscopy (SEM) and energy dispersive X-ray analysis (EDS). Additionally, corrosion pitting analysis and roughness measurement were conducted on the samples. Findings: On the basis of the investigations, it can be stated that the prosthetic restorations are different depending on the type manufacturing technology. Based on the obtained results it was found that the structures of both materials are chemically inhomogeneous. The investigated alloy exhibited similar polarization curve character. Practical implications: The rapid prototyping methods are a new technology used for getting details e.g. by CAD/CAM procedure. Using Direct Metal Laser Sintering (DMLS) method can simplify the technology of producing prosthetics restrictions and is an alternate way for standard casting technology. Originality/value: The paper presents comparative research of two Co-Cr alloys, from which the samples were obtained in conventional casting and DMLS technology.
Rocznik
Strony
20--26
Opis fizyczny
Bibliogr. 17 poz.
Twórcy
  • Department of Biomaterials and Medical Devices Engineering, Silesian University of Technology, ul. Roosevelta 40, 41-800 Zabrze, Poland
autor
  • Department of Biomaterials and Medical Devices Engineering, Silesian University of Technology, ul. Roosevelta 40, 41-800 Zabrze, Poland
  • Division of Biomedical Materials Engineering, Silesian University of Technology, ul. Konarskiego 18A, 44-100 Gliwice, Poland
autor
  • Division of Biomedical Materials Engineering, Silesian University of Technology, ul. Konarskiego 18A, 44-100 Gliwice, Poland
autor
  • Division of Nanocrystalline and Functional Materials and Sustainable Proecological Technologies, Silesian University of Technology, ul. Konarskiego 18A, 44-100 Gliwice, Poland
Bibliografia
  • [1] J. Augustyn-Pieniążek, A. Łukaszczyk, J. Loch, Material and corrosion studies of conventional Co-Cr- Mo-W alloys for frame constructions casts in dental prosthetics, Engineering of Biomaterials 18/130 (2015) 2-9.
  • [2] J. Augustyn-Pieniążek, P. Kurtyka, J. Stopka, Abrasive behavior of Co-Cr alloys in the ceramic material - artificial saliva suspension, Engineering of Biomaterials 17/127 (2014) 7-15.
  • [3] A. Łukaszczyk, J. Augustyn-Pieniążek, Corrosion resistance of Co-Cr-Mo alloy used in dentistry, Archives of Metallurgy and Materials 60/1 (2015) 523-528.
  • [4] Ł. Bojko, A.M. Ryniewicz, R. Bogucki, P. Pałka, Microstructural and strength studies Co-Cr-Mo alloy on prosthetic reconstructions in casting technology and laser sintering, Electrochemical review 91/5 (2015) 29-32(in Polish).
  • [5] M. Podrez-Radziszewska, K. Haimann, W. Dudziński, M. Morawska-Sołtysik, Characteristic of intermetallic phase on cast dental CoCrMo alloy, Archives of Foundry Engineering 10/3 (2010) 51-56.
  • [6] S. Majewski, New technology used in fabrication of fixed partial dentuers: galvanoforming, CAD/CAM technology, titan cutting and all - ceramic systems, Prosthodontics 57/2 (2007) 124-131(in Polish).
  • [7] M. Gładkowska, P. Montefka, P. Okoński, Comparison of CAD/CAM systems used in modern prosthodontics, Prosthodontics 58/2 (2008) 150-113 (in Polish).
  • [8] Ts. Dikova, Dzh. Dzhedov, M. Simov, Microstructure and hardness of fixed dental prostheses manufactured by additive technologies, Journal of Achievements in Materials and Manufacturing Engineering 71/2 (2015) 60-69.
  • [9] K. Vijay Venekastesh, V. Widyashree Nadini, Direct Metal Laser Sintering: A Digitised Metal Casting Technology, The Journal of Indian Prosthodontic Society 13/4 (2013) 389-392.
  • [10] M. Walczak, K. Beer, B. Surowska, J. Borowicz, The issue of using remelted CoCrMo alloys in dental prothetics, Archives of Civil and Mechanical Engineering 12/2 (2012) 171-177.
  • [11] A. Ziębowicz, B. Bączkowski, Numerical analysis of the implant-abutment system, in: E. Piętka, J. Kawa (Eds.), Information Technologies in Biomedicine, LNBI 7339, Berlin-Heidelberg, Springer-Verlag, 2012, 341-350.
  • [12] E. Tomac, S. Toksavul, M. Toman, Clinical marginal and internal adaptation of CAD/CAM milling, laser sintering, and cast metal ceramic crowns, Journal of Prosthetic Dentistry 112/4 (2014) 909-913.
  • [13] J.K. Park, W.S. Lee, H.Y. Kim, W.C. Kim, J.H. Kim, Accuracy evolution of metal copings fabricated by computer-aided milling and direct metal laser sintering systems, Journal of Advanced Prosthodontics 7/2 (2015) 122-128.
  • [14] D. Rylska, G. Sokołowski, J. Sokołowski, M. Łukomska-Szymańska, Chemical passivation as a method of improving the electrochemical corrosion resistance of Co-Cr-based dental alloy, Acta of Bioengineering and Biomechanics 19/2 (2017) 73-78.
  • [15] A. Ziębowicz, B. Ziębowicz, B. Bączkowski, Electrochemical behavior of materials used in dental implantological systems, Solid State Phenomena 227 (2015) 447-450.
  • [16] E. Santos, M. Shiomi, K. Osakada, T. Laoui, Rapid manufacturing of metal components by laser forming, International Journal of Machine Tool and Manufacture 46/12-13 (2006) 1459-1468.
  • [17] ISO 10993-15:2000: Biological evaluation of medical devices - Part 15: Identification and quantification of degradation products from metals and alloys.
Uwagi
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-2ad1cf43-7586-4756-b5a5-296b67d32b13
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