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Purpose: In the given paper the analysis of the Ti6Al4V alloy has been carried out, methods for manufacturing of components for use in dentistry as well as the impact on the human body have been described. Then the controversy over the possibility of modifying the properties of a final product - an implant by the use of the injection method not used so far in that field has been taken. Design/methodology/approach: Titanium alloys in dental application should be characterized by high corrosion resistance and biocompatibility. In the framework of the given paper the commercial methods of the production of titanium elements for biomedical applications have been analysed. Findings: In the framework of the analysis of the possibilities of changes in the properties of the Ti6Al4V titanium alloy, the injection method for the production of a finished product - an implant, so far not used for a commercial scale, has been proposed. Practical implications: In practice, the application of those considerations will find the representation in further researches carried out by the possibility of using the injection method to modify and improve the mechanical and physico-chemical properties of the final product. An important aspect is the fact that during the modification of the manufacturing process the chemical composition of the alloy out of which the implant will be produced, will not change. Originality/value: The fact of taking the controversy over the possibility of using the injection methods for the production of dental implants, also for an industrial scale is an original aspect in that consideration.
Słowa kluczowe
Wydawca
Rocznik
Tom
Strony
58--66
Opis fizyczny
Bibliogr. 38 poz.
Twórcy
autor
- Faculty of Production Engineering and Materials Technology, Czestochowa University of Technology, Al. Armii Krajowej 19 42-200 Częstochowa, Poland
autor
- Faculty of Production Engineering and Materials Technology, Czestochowa University of Technology, Al. Armii Krajowej 19 42-200 Częstochowa, Poland
Bibliografia
- [1] K. Makuch, R. Koczorowski, The biocompatibility of titanium and its alloys used in dentistry, Dentistry Medicine Problems 47 (2010) 81-88 (in Polish).
- [2] Y.T. Sul, C. Johanssson, E. Byon, T. Albrektsson, The bone response of oxidize bioactive and non-bioactive titanium implants, Biomaterials 26 (2005) 6720-6730 (in Polish).
- [3] K. Bordji, J.Y. Jouzeau, D. Mainard, E. Payan, P. Netter, K.T. Rie, T. Stucky, M. Hage-Ali, Cyto-compatibility of Ti-6Al-4V and Ti-5Al-2.5Fe alloys according to three surfaces treatments, using human fibroblasts nad osteblasts, Biomaterials 17 (1996) 929-940 (in Polish).
- [4] J. Marciniak, Biomaterials, Publishing House Silesian University of Technology, Gliwice, 2002 (in Polish).
- [5] K. Wang, The use of titanium for medical applications in the USA, Materials Science and Engineering 23 (1996) 134-137.
- [6] B. Rusinek, A. Stobiecka, K. Btułowicz, Allergy to titanium and implants, Allergology Immunological 1 (2008) 5-7 (in Polish).
- [7] M. Nałęcz, Biocybernetics and Biomedical Engineering 2000: Biomaterials 4, Academic Publishing House Exit, Warsaw, 2003.
- [8] L.A. Dobrzański, Engineering materials and materials design, Fundamentals of materials science and physical metallurgy, WNT, Warszawa, 2002 (in Polish).
- [9] R. Melechow, K. Tubielewicz, W. Błaszczuk, Titanium and its alloys, Publishing House Technical University of Częstochowa, Częstochowa, 2004 (in Polish).
- [10] R. Orlicki, B. Kłapticz, Titanium and its alloys - properties, applications in dentistry and processing methods, Dental Engineering - Biomaterials 1 (2003) 3-8 (in Polish).
- [11] M. McCracken, Dental implant materials: commercially pure titanium and titanium alloys, J. Prosthod 8 (1999) 40-43.
- [12] A. Bylica, J. Sieniawski, Titanium and its alloys, PWN, Warsaw 1985 (in Polish).
- [13] K.E. Oczoś, Loss shaping titanium and its alloys in the aerospace and medical technology I, Mechanic 8-9 (2008) 1-2 (in Polish).
- [14] R. Boyer, ASM Handbook Metallography and Microstructures, Titanium and Titanium Alloys, ASM International, The Materials Information Society 9 1995.
- [15] L.A. Dobrzański, Metallic Materials Engineering, Scientific-Technical, WNT, Warsaw, 2004 (in Polish).
- [16] K. Kubiak, J. Sieniawski, Basics of two-phase heat treatment of titanium alloys, Scientific Papers University of Opole 58, Opole, 1999 (in Polish).
- [17] K.E. Oczoś, Increasing the efficiency of cutting processes titanium alloys, Mechanic 10 (2003) 543-550.
- [18] J. Dutkiewicz, W. Maziarz, J. Kuśnierz, L. Jaworska, Nanocrystalline titanium and its alloys production and property, Dental Biomaterials Engineering 4 (2007) 2-6.
- [19] E. Berg, Dentists opinion on aspects of cast titanium restorations, Journal Dentistry 25 (1997) 113-117.
- [20] H.H. Brandt, Implant materials, Introduction to implantology, Medical Publishing House Urban & Partner, Wrocław, 1998 (in Polish).
- [21] J. Li, H. Liao, B. Fartasg, L. Hermanssoni, T. Johnssont, Surface-dimpled commercially pure titanium implant and bone ingrowth, Biomaterials 18 (1997) 692.
- [22] M. Pyrliński, H. Limanowska-Shaw, The properties of titanium and the problem of hypersensitivity to the metal, Implantoprosthetics 7 (2007) 51 (in Polish).
- [23] D. Olmedo, M.M. Fernandez, M.B. Guglielmotti, R.L. Cabrini, Macrophages related to dental implant failure, Implant Dent. 12 (2000) 75-80.
- [24] S.B. Ferreira, C.M.Figueiredo, A.L. Almeida, G.F. Assis, T.J. Dinisio, C.F. Santos, Clinicla, histological and microbiological findings in peri-imlant disease:a pilot study, Implant Dent. 18 (2009) 334-344.
- [25] H. Shan-Hui, L. Bai-Shuan, L. Weng-Hung, Ch. Heng-Chieh, H. Shih-Ching, Ch. Shih-Shyong, Characterization and biocompatibility of a titanium dental implants with a laser irradiated and dual-acid etched surface, Biomedical Materials Engineering 17 (2007) 53-68.
- [26] D. Scharnweber, R. Beutner, S. Robler, H. Worch, Electrochemical behavior of titanium - based materials - are there relations to biocompatibility, Journal of Material Science Material. Med. 13 (2002) 1215-1230.
- [27] G. Koller, R.J. Cook, I.D. Thompson, T.F. Watson, L. Di Silivio, Surface modification of titanium implants using bioactive glasses with air abrasion Technologies, Journal of Material Science Material. Med. 18 (2007) 2291-2296.
- [28] T.O. Albrektsson, B. Carina, J. Sennerby, L. Sennerby, Biological aspect of implant dentistry: osseo-integration, Periodontology 2000 4 (1994) 58-73.
- [29] F.J. Gil, J.A. Planell, A. Padros, C. Aparicio, The effect of shot blasting and heat treatment on the fatigue behavior of titanium for dental implant applications, Dental Materials 23 (2007) 486-491.
- [30] G. Niznick, The implant abutment connection - the key to prosthetic success, DMD, California, 1999.
- [31] J. Chai, G. McGivney, C. Munzo, J. Rubstein, A multicenter longitudinal trial of a new systems for restoration. Journal of Prosthetics 1 (1997) 77.
- [32] J. Meyer, H. Luthy, Titan in der Zahnheilkunde welche Entwicklung gibt es bis heute?, Quintessenze Zahntech 5 (1995) 681.
- [33] K. Passler, E. Mann, Der dental Titanguss – Grudlagen, Technologii und wekstoffkundliche Bewertung, Quintessenz Zahntech 6 (1991) 717.
- [34] L. Dąbrowski, M. Marciniak, B. Nowicki, Machining, abrasive and erosive, Publishing House Warsaw University of Technology, Warsaw, 1997 (in Polish).
- [35] S. Skrzypiec, Electrodischarge machining EDM & WEDM, Warsaw University, Warsaw, 2011 (in Polish).
- [36] S. Majewski, Reconstruction of constant teeth additions, Publishing Foundation Prosthodontics, Cracow, 2005 (in Polish).
- [37] H. Panek, New technologies in dental prosthetics, Publishing Academy of Medicine, Wrocław 2006 (in Polish).
- [38] E.A. Hegenbarth, Use of Procera CAD/CAM System for Metal-free Crowns on Single-Tooth Implants, Quintessence of Dental Technology 21 (1998) 27-31.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-37a12c1f-4b59-4766-bb8f-161f7de92e07