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Tytuł artykułu

Application of contemporary engineering techniques and technologies in the field of dental prosthetics

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: During the last couple of decades, development of medical science has been marked with an ever more pronounced interdisciplinary character which, in part, can be attributed to various engineering applications. Rapid development of computer-aided technologies, which completely transformed production engineering, also left an indelible mark on dental prosthetics. Striving towards its primary goal - primum non nocere (’Above all, do not harm!’), the area of dental prosthetics has introduced numerous novel technologies and methods which allow manufacture of precision, custom-made, optimal dental replacements. Design/methodology/approach: The aim of research - to contribute to integration of modern engineering technologies and computer-aided systems into dental prosthetics with special emphasis on efficient manufacture of dental replacements with precision which allows clinical applicability. The subject scope of the paper comprises modelling, manufacturing with special emphases on materials, quality inspection and environmental impact assessment (cleaner production). Findings: In the industrially developed countries, efforts have been concentrated towards advancement of modelling and manufacture of dental replacements by introducing modern computer equipment and state-of-the-art materials and machining technologies. However, in countries in transition, dental replacements are predominantly manufactured in a traditional, manual way prone to errors. The reasons for this situation are various. Practical implications: It is expected that this trend will have a significant impact on the further development of production engineering techniques and technologies in the near future. Originality/value: The paper evolved on the premise that there is a room for more intensive co-operation between the two disciplines - dental prosthetics and engineering, with a prospect for success of the development of novel, original solutions. In that sense, this paper should serve to both professions - production engineers and dentists.
Rocznik
Strony
233--241
Opis fizyczny
Bibliogr. 32, rys., tab.
Twórcy
autor
  • Faculty of Technical Sciences, University of Novi Sad, Trg D. Obradovica 6, 21000 Novi Sad, Serbia
autor
  • Faculty of Natural Sciences and Engineering, University of Ljubljana, Askerceva 12, 1000 Ljubljana, Slovenia
autor
  • Faculty of Mechanical Engineering, University of Ljubljana, Askerceva 6, 1000 Ljubljana, Slovenia
Bibliografia
  • [1] D. Jevremovic, T. Puskar, B. Kosec, D. Vukelic, I. Budak, S. Aleksandrovic, D. Egbeer, R. Williams, The analysis of the mechanical properties of F75 Co-Cr alloy for use in selective laser melting (SLM) manufacturing of removable partial dentures (RPD), Metalurgija 51/2 (2012) 171-174.
  • [2] I. Budak, B. Trifkovic, T. Puskar, M. Hadzistevic, D. Vukelic, J. Hodolic, Application and accuracy of 3D-digitization systems in the field of dentistry, Proceedings of the 6th International Working Conference Total Quality Management - Advanced and Intelligent Approaches, 2011, 409-414.
  • [3] J. Hodolic, T. Puskar, I. Besic, Current status and future trends in dental CAM restorative systems, Proceedings of the 34th International Conference on Production Engineering, Nis, 2011.
  • [4] G. Sansoni, M. Trebeschi, F. Docchio, State-of-the-art and applications of 3D imaging sensors in industry, cultural heritage, medicine, and criminal investigation, Sensors 9 (2009) 568-601.
  • [5] I. Budak, D. Vukelic, D. Bracun, J. Hodolic, M. Sokovic, Pre-processing of point-data from contact and optical 3D digitization sensors, Sensors 12 (2012) 1100-1126.
  • [6] I. Budak, M. Sokovic, B. Barisic, Accuracy improvement of point data reduction with sampling-based methods by Fuzzy logic-based decision-making, Measurement 44 (2011) 1188-1200.
  • [7] I. Budak, M. Sokovic, J. Kopac, J. Hodolic, Point data pre-processing based on fuzzy logic for reverse engineering modelling, Strojniski Vestnik 55 (2009) 755-765.
  • [8] R. Bibb, J. Winder, A review of the issues surrounding three-dimensional computed tomography for medical modelling using rapid prototyping techniques, Radiography 16 (2010) 78-83.
  • [9] M. Sokovic, J. Kopac, RE (reverse engineering) as necessary phase by rapid product development, Journal of Material Processing Technology 175 (2006) 398-403.
  • [10] D.P. Jevremovic, T.M. Puskar, I. Budak, Dj. Vukelic, V. Kojic, D. Eggbeer, R.J. Williams, An RE/RM approach to the design and manufacture of removable partial dentures with a biocompatibility analysis of the F75 Co-Cr SLM alloy, Materials and Technology 46 (2012) 123-129.
  • [11] M. Germani, R. Raffaeli, A. Mazzoli, A method for performance evaluation of RE/RP systems in dentistry, Rapid Prototyping Journal 16 (2010) 345-355.
  • [12] R. Hunter, F. Alister, J. Moller, J. Alister, A new approach to modelling and designing mono-block dental implants, Journal of Achievements in Materials and Manufacturing Engineering 22/1(2007) 77-80.
  • [13] G.V. Arnetzl, G. Arnetzl, Design of preparations for all-ceramic inlays materials, International Journal of Computerized Dentistry 9 (2006) 289-298.
  • [14] B. Trifkovic, I. Budak, T. Puskar, D. Jevremovic, Accuracy of Cerec 3D optical scanner systems in fixed dental restoration Manufacturing, Proceedings of the 10th International Conference New Ways in Manufacturing Technologies, Presov, 2010, 295-302
  • [15] P. Tan, D. Gratton, A. Diaz-Arnold, D. Holmes, An in vitro comparison of vertical marginal gaps of CAD/CAM titanium and conventional cast restorations, Journal of Prosthodontics 17 (2008) 378-383.
  • [16] G. Arnetzl, D. Pongratz, Milling precision and fitting accuracy of Cerec Scan milled restorations, International Journal of Computerized Dentistry 8 (2005) 273-281.
  • [17] R.J. Williams, R. Bibb, D. Eggbeer, CAD/CAM fabricated removable partial-denture frameworks, Practical Procedures and Aesthetic Dentistry 20 (2008) 349-351.
  • [18] R.J. Williams, R. Bibb, D. Eggbeer, CAD/CAM Rapid Manufacturing Techniques in the Fabrication of Removable Partial Denture Frameworks, Quintessence Journal of Dental Technology 6 (2008) 42-50.
  • [19] M. Milutinovic, D. Vilotic T. Puskar, D. Markovic, A. Ivanisevic, M. Potran, Metal forming technologies in dental components production, Proceedings of the 34th International Conference on Production Engineering, Nis, 2011.
  • [20] M. Greger, M. Widomska, L. Kander, Mechanical properties of ultra-fine grain titanium, Journal of Achievements in Materials and Manufacturing Engineering 40/1 (2010) 33-40.
  • [21] W. Kajzer, A. Kajzer, J. Marciniak, FEM analysis of compression screws used for small bone treatment, Journal of Achievements in Materials and Manufacturing Engineering 33/2 (2009) 189-196.
  • [22] B. Vandenbroucke, J.P. Kruth, Selective laser melting of biocompatible metals for rapid manufacturing of medical parts, Rapid Prototyping Journal 13 (2007) 196-203.
  • [23] R. Rudolf, T. Zupancic Hartner, L. Kosec, A. Todorovic, B. Kosec, I. Anzel, Mechanical properties and microstructure characterisation of Au-Pt dental alloy, Metalurgija 47 (2008) 317-323.
  • [24] R. Bibb, D. Eggbeer, R.J. Williams, Rapid manufacture of removable partial denture frameworks, Journal of Rapid Prototyping 12 (2006) 95-100.
  • [25] D. Eyers, K. Dotchev, Technology review for mass customisation using rapid manufacturing, Assembly Automation 30 (2010) 39-46.
  • [26] L.A. Dobrzanski, Ł. Reimann, Influence of Cr and Co on hardness and corrosion resistance CoCrMo alloys used on dentures, Journal of Achievements in Materials and Manufacturing Engineering 49 (2011) 193-199.
  • [27] A. Azari, S. Nikzad, The evolution of rapid prototyping in dentistry: a review, Rapid Prototyping Journal 15 (2009) 216-225.
  • [28] M. Plancak, T. Puskar, O. Luzanin, D. Markovic, P. Skakun, D. Movrin, Some aspects of rapid prototyping applications in medicine, Proceedings of the 34th International Conference on Production Engineering, Nis, 2011.
  • [29] M. Zitnansky, E. Caplovic, E. Rehak, F. Makai, Investigation and implantation of endo-prosthesis in biological experiment on animals, Journal of Achievements in Materials and Manufacturing Engineering 24/1 (2007) 146-152.
  • [30] J. Winder, R. Bibb, Medical rapid prototyping technologies: state of the art and current limitations for application in oral and maxillofacial surgery, Journal of Oral and Maxillofacial Surgery 63 (2005) 1006-1015.
  • [31] J. Grabarczyk, D. Batory, P. Louda, P. Couvrat, I. Kotela, K. Bakowicz-Mitura, Carbon coatings for medical implants, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 107-110.
  • [32] R. Bibb, D. Eggbeer, P. Evans, A. Bocca, A. Sugar, Rapid manufacture of custom-fitting surgical guides, Rapid Prototyping Journal 15 (2009) 346-354.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-af7f8acb-a561-4167-adc0-6f56315cad3f
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