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Influence of self-made saliva substitutes on tribological characteristics of human enamel

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This paper describes the results of tests on the influence of human saliva and its substitutes on tribological characteristics of friction pairs. Each pair consists of enamel and one of the following materials: ceramics, the Meridian B2 dental composite, the GK dental amalgam, and Ti-6Al-4V titanium alloy. The saliva substitutes used were prepared using pyrophosphates, xanthan gum, and mucins dissolved in a saline buffer. The results of the tribological tests show that the values of the parameters under investigation (coefficient of friction and linear wear) were different from each other. Some similarity was observed between the evaluated level of wear characteristics after the friction process in the environment of human saliva and that in the environment of one of the mucins tested. Microscopic observations of the surfaces of the enamel samples after friction revealed varied forms of tribological wear.
Rocznik
Strony
67--74
Opis fizyczny
Bibliogr. 25 poz., rys., tab., wykr.
Twórcy
  • Department of Materials and Biomedical Engineering, Faculty of Mechanical Engineering, Bialystok University of Technology, Białystok, Poland
  • Department of Materials and Biomedical Engineering, Faculty of Mechanical Engineering, Bialystok University of Technology, Białystok, Poland
  • Department of Materials and Biomedical Engineering, Faculty of Mechanical Engineering, Bialystok University of Technology, Białystok, Poland
autor
  • Department of Materials and Biomedical Engineering, Faculty of Mechanical Engineering, Bialystok University of Technology, Białystok, Poland
Bibliografia
  • [1] BONGAERTS J.H.H., ROSSETTI D., STOKES J.R., The lubricating properties of human whole saliva, Tribol. Lett., 2007, 27, 277–287.
  • [2] DODDS M.W.J., JOHNSON D.A., YEHC Ch.-K., Health benefits of saliva: a review, J. Dent., 2005, 33, 223–233.
  • [3] AMERONGEN A.V.N., VEERMAN E.C.I., Saliva – the defender of the oral cavity, Oral. Dis., 2002, 8(1), 12–22.
  • [4] RANTONEN P., Salivary flow and composition in healthy and diseased adults, University of Helsinki, Helsinki, 2003, 99 p.
  • [5] BROSKY M.E., The role of saliva in oral health: strategies for prevention and management of xerostomia, J. Support Oncol., 2007, 5(5), 215–225.
  • [6] ZALEWSKA A.K., WASZKIEL D., KOWALCZYK A., Ślina jako główny składnik ekosystemu jamy ustnej, Wiad Lek., 2007, 60, 3–4 (in Polish).
  • [7] LACHOWICZ L., TURSKA E., Biochemia jamy ustnej, Wydaw. Lek. PZWL, 2008, 137 p (in Polish).
  • [8] KACZMAREK U., Leczenie suchości jamy ustnej – przegląd piśmiennictwa, Czas Stomatol., 2007, LX (2), 88–95 (in Polish).
  • [9] SAJEWICZ E., On evaluation of wear resistance of tooth enamel and dental materials, Wear, 2006, 260, 1256–1261
  • [10] ANDRYSEWICZ E., DĄBROWSKI J.R., LEONOW G., Aspekty metodyczne badań reologicznych śliny, Twój Prz. Stomatol., Z. temat., 2008, 10–15 (in Polish).
  • [11] ANDRYSEWICZ E., MYSTKOWSKA J., KOLMAS J., JAŁBRZYKOWSKI M., OLCHOWIK R., DĄBROWSKI J.R., Influence of artificial saliva compositions on tribological characteristics of Ti-6Al-4V implant alloy, Acta Bioeng. Biomech., 2012, Vol. 14, 4, 71–79.
  • [12] HACKER C.H., WAGNER W.C., RAZZOOG M.E., An in vitro investigation of the wear of enamel on porcelain and gold in saliva, J. Prosthet. Dent., 1996, 75, 14–17.
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  • [14] KOCZOROWSKI R., WLOCH S., Evaluation of wear of selected prosthetic materials in contact with enamel and dentin, J. Prosthet. Dent., 1999, 81, 453–459.
  • [15] WANG L., LIU Y., SI W., FENG H., TAO Y., MA Z., Friction and wear behaviors of dental ceramics against natural tooth enamel, J. Europ. Cer. Society, 2012, 32, 2599–2606.
  • [16] ZHENG J., ZHOU Z.R., Friction and wear behavior of human teeth under various wear conditions, Tribol. Int., 2007, 40, 278–284.
  • [17] D’INCAU E., COUTURE CH., MAUREILLE B., Human tooth wear in the past and the present: Tribological mechanisms, scoring systems, dental and skeletal compensations, Arch. Oral. Biol., 2012, 57, 214–229.
  • [18] ZHENG J., HUANG H., SHI M.Y., ZHENG L., QIAN L.M., ZHOU Z.R., In vitro study on the wear behaviour of human tooth enamel in citric acid solution, Wear, 2011, 271, 2313–2321.
  • [19] ZHENG S.Y., ZHENG J., GAO S.S., YU B.J., QIAN L.M., ZHOU Z.R., Investigation on the microtribological behaviour of human tooth enamel by nanoscratch, Wear, 2011, 271, 2290–2296.
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  • [21] ZHENG J., ZHOU Z.R., Study of in vitro wear of human tooth enamel, Tribol. Lett., 2007, Vol. 26, 2, 181–189.
  • [22] LI H., ZHOU Z.R., Wear behaviour of human teeth in dry and artificial saliva conditions, Wear, 2002, 249, 980–984.
  • [23] KIM M.J., OH S.H., KIM J.H., JU S.W., SEO D.G., JUN S.H., AHN J.S., RYU J.J., Wear evaluation of the human enamel opposing different Y-TZP dental ceramics and other porcelains, J. Dent., 2012, 40, 979–988.
  • [24] RANJITKAR S., KAIDONIS J.A., TOWSEND G.C., RICHARDS L.C., An in vitro assessment of the effect of load and pH on wear between opposing enamel and dentin surfaces, Arch. Oral. Biol., 2008, 53, 1011–1016
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-b9c6c1ed-e846-469d-bdca-4fe971c2e5ba
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