Evaluation of alumino-silicate ceramic surface after different surface conditioning methods

• Autorzy: Łapińska B. , Sokołowski G. , Rzepkowski A. , Sokołowski J. , Łukomska-Szymańska M.
• Języki publikacji: EN

Abstrakty

EN

Purpose: of this paper was to evaluate changes in alumino-silicate glass ceramic surface structure and the bond strength to composite material after different surface conditioning methods. Design/methodology/approach: Different conditioning methods of ceramic surface were applied: sandblasting, etching with hydrofluoric acid or both. Grounded ceramic surface served as control group. To evaluate changes of ceramic surface structure CLSM microscopy was used and profilometric analysis of ceramic surface was performed. Shear bond strength of composite material to ceramics was tested. Findings: The highest bond strength between tested alumino-silicate ceramics and composite material was obtained after sandblasting followed by 5 min 9% HF. Research limitations/implications: Further research should be conducted to evaluate the influence of surface treatment methods e.g. prolonged hydrofluoric etching time, on mechanical properties of ceramics. Practical implications: Extending HF etching time of glass-ceramic surface results in increased surface area and allows to obtain high bond strength to composite material. Originality/value: Results of the study applies to clinical situation as the clinical outcome and survival rate of dental all-ceramic prosthetic restorations depend on reliable bonding to tooth structures.

Słowa kluczowe

EN

ceramics; surface conditioning; roughness; shear bond strength

PL

ceramika; obróbka powierzchni; chropowatość; wytrzymałość na ścinanie

• Wydawca: International OCSCO World Press
• Czasopismo: Journal of Achievements in Materials and Manufacturing Engineering
• Rocznik: 2016
• Tom: Vol. 75, nr 1
• Strony: 5--13
• Opis fizyczny: Bibliogr. 39 poz., rys., tab.

Twórcy

autor

Łapińska B.

• Department of General Dentistry, Medical University of Lodz, ul. Pomorska 251, 92-213 Łódź, Poland

autor

Sokołowski G.

• Department of Prosthetic Dentistry, Medical University of Lodz, ul. Pomorska 251, 92-213 Łódź, Poland

autor

Rzepkowski A.

• Institute of Materials Science and Engineering, Lodz, University of Technology, ul. Stefanowskiego 1/15, 90-924 Łódź, Poland

autor

Sokołowski J.

• Department of General Dentistry, Medical University of Lodz, ul. Pomorska 251, 92-213 Łódź, Poland

autor

Łukomska-Szymańska M.

• Department of General Dentistry, Medical University of Lodz, ul. Pomorska 251, 92-213 Łódź, Poland

Bibliografia

• [1] N. Barghi, D.E. Fischer, L. Vatani, Effects of porcelain leucite content, types of etchants, and etching time on porcelain-composite bond, Journal of Esthetic and Restorative Dentistry 18/1 (2006) 47-52.
• [2] G.A. Borges, A.N Sophr, M.F. de Goes, L.C. Sobrinho, D. Chan, Effect of etching and airborne particle abrasion on the microstructure of different dental ceramics, Journal of Prosthetic Dentistry 89 (2003) 479-488.
• [3] J.H. Chen, H. Matsumura, M. Atsuta, Effect of etchant, etching period and silane priming on bond strength to porcelain of composite resin, Operative Dentistry 23 (1998) 250-257.
• [4] J.H. Chen, H. Matsumura, M. Atsuta, Effect of different etching periods on the bond strength of a composite resin to a machinable porcelain, Journal of Dentistry 26 (1998) 53-58.
• [5] A. Della Bona, K.J. Anusavic, J.J. Mechlovsky Jr, Failure analysis of resin composite bonded to ceramic, Dental Materials 19 (2003) 693-699.
• [6] M. Özcan, P.K. Vallittu, Effect of surface conditioning methods on the bond strength of luting cement to ceramics, Dental Materials 19 (2003) 725731.
• [7] K.A. Kupiec, K.M Wuertz, W.W. Barkmeier, T.M. Wilwerding, Evaluation of porcelain surface treatments and agents for composite-to-porcelain repair, Journal of Prosthetic Dentistry 76/2 (1996) 119-124.
• [8] S. Shahverdi, . Canay, E. ahin, A. Bilge, Effects of different surface treatment methods on the bond shear strength of composite resin to porcelain, Journal of Oral Rehabilitation 25 (1998) 699-705.
• [9] I. Stangel, D. Nathanson, C.S. Hsu, Shearstrength of composite bond to etched porcelain, Journal of Dental Research 66/9 (1987) 1460-1465.
• [10] R. Lu, J.K. Harcourt, M.J. Tyas, B. Alexander, An investigation of the composite resin/porcelain interface, Australian Dental Journal 37 (1992) 12-19.
• [11] A. Della Bona, R. van Noort, Ceramic surface preparations for resin bonding, American Journal of Dentistry 11 (1998) 276-280.
• [12] J. Calamia, J. Vaidyanathan, T. Vaidyanathan, S. Hirsh, Shear bond strength of etched porcelains, Journal of Dental Research 64 (1984) 296.
• [13] O. Addison, P.M. Marquis, G.J.P. Fleming, The impact of hydrofluoric acid surface treatments on the performance of a porcelain laminate restorative material, Dental Materials 23 (2007) 461-468.
• [14] M. Aida, T. Hayakawa, K. Mizukawa, Adhesion of composite to porcelain with various surface conditions, Journal Prosthetic Dentistry 73/5 (1995) 464-470.
• [15] A. al Edris, A. al Jabr, R.L. Cooley, N. Barghi, SEM evaluation of etch patterns by three etchants on three porcelains, Journal of Prosthetic Dentistry 64 (1990) 734-739.
• [16] H.R. Horn, Porcelain laminate veneers bonded to etched enamel, in: Phillips R.W. (Ed.), Symposium on dental materials, 27, 1983, 671-684.
• [17] ISO standard ISO/TS 11 405:2003: Dental materials - Testing adhesion to tooth structure.
• [18] B. Łapiska, M.I. Szynkowska, J. Sokołowski, Evaluation of the surface structure of heat-pressed ceramic after different surface treatments, Dental Forum 37/2 (2009) 27-34 (in Polish).
• [19] B. Łapiska, M.I. Szynkowska, J. Sokołowski, Effect of different hydrofluoric acid etching periods on the microstructure of feldspathic ceramic, Polish Journal of Environmental Studies 17/6A (2008) 513-523.
• [20] G.A. Borges, A.N. Sophr, M.F. de Goes, L.C. Sobrinho, D. Chan, Effect of etching and airborne particle abrasion on the microstructure of different dental ceramics, Journal of Prosthetic Dentistry 89 (2003) 479-488.
• [21] T. Akova, N. Aytutuldu, O. Yoldas, The evaluation of different surface treatment methods for porcelain composite bonding, International Journal of Adhesion and Adhesives 27 (2007) 20-25.
• [22] M. Özcan, H.N. Alkumru, D. Gemalmaz, The effect of surface treatment on the shear bond strength of luting cement to a glass-infiltrated alumina ceramic, International Journal of Prosthodontcis 14 (2001) 335339.
• [23] T. Yen, R.B. Blackman, R.J. Baez, Effect of acid etching on the flexural strength of a feldspathic porcelain and castable glass ceramic, Journal of Prosthetic Dentistry 70 (1993) 224-233.
• [24] A. Della Bona, R. van Noort, Ceramic surface preparations for resin bonding, American Journal of Dentistry 11 (1998) 276-280.
• [25] X. Meng, K. Yoshida, M. Atsuta, Microshear bond strength of resin bonding systems to machinable ceramic with different surface treatments, Journal of Adhesive Dentistry 10 (2008) 189-196.
• [26] K.H. Chung, Y.C. Hwang, Bonding strength of porcelain repair systems with various surface treatments, Journal of Prosthetic Dentistry 78 (1997) 267-274.
• [27] A.B. Venturini, C. Prochnow, L.G. May, M.C. Bottino, L.F. Valandro, Influence of hydrofluoric acid concentration on the flexural strength of a feldspathic ceramic, Journal of the Mechanical Behavior of Biomedical Materials 48 (2015) 241-248.
• [28] M.F. Ayad, N.Z. Fahmy, S.F. Rosenstiel, Effect of surface treatment on roughness and bond strength of a heat-pressed ceramic, Journal of Prosthetic Dentistry 99 (2008) 123-130.
• [29] K. Moharamzadeh, T. Hooshmand, A. Keshvad, R. van Noort, Fracturetoughness of a ceramic-resininterface, Dental Materials 24 (2008) 172-177.
• [30] R.J.-Y. Kim, J.-S. Woo, I.-B. Lee, Y.-A. Yi, J.-Y. Hwang, D.-G. Seo, Performance of universal adhesives on bonding to leucite-reinforced ceramic, Biomaterials Research 19/11 (2015) DOI 10.1186/s40824-015-0035-1.
• [31] Y. Lee, J.H. Kim, J.S. Woo, Y.A. Yi, J.Y. Hwang, D.G. Seo, Analysis of Self-Adhesive Resin Cement Microshear Bond Strength on Leucite-Reinforced Glass-Ceramic with/without Pure Silane Primer or Universal Adhesive Surface Treatment, BioMed Research International (2015) 2015:361893. doi: 10.1155/2015/361893.
• [32] J.W. Thurmond, W.W. Barkmeier, T.M. Wilwerding, Effect of porcelain surface treatments on bond strength of composite resin bonded to porcelain, Journal of Prosthetic Dentistry 72/4 (1994) 355-359.
• [33] J.-Y. Lee, E.-B. Im, A shear bond strength of resin cements bonded to pressable porcelain with various surface treatments, The Journal of Korean Academy of Prosthodontics 41 (2003) 379-386.
• [34] G.P. Stewart, P. Jain, J. Hogdes, Shear bond strength of resin cements to both ceramic and dentin, Journal of Prosthetic Dentistry 88 (2002) 277-284.
• [35] M.P. Nagayassu, L.K. Shintome, E.S. Uemura, J.E. Araujo, Effect of surface treatment on the shear bond strength of resin-based cement to porcelain, Brazilian Dental Journal 17/4 (2006) 290-295.
• [36] A. Saraçolu, C. Cura, H.S. Çötert, Effect of various surface treatment methods on the bond strength of the heat-pressed ceramic samples, Journal of Oral Rehabilitation 31 (2004) 790-797.
• [37] R.E. Appeldoorn, T.M. Wilwerding, W.W. Barkmeier, Bond strength of composite resin to porcelain with newer generation porcelain repair systems, Journal of Prosthetic Dentistry 70 (1993) 6-11.
• [38] E. Yassini, K. Tabari, Comparison of shear bond strength between composite resin and porcelain using different bonding systems, Journal of Dentistry 2/1 (2005) 1-6.
• [39] L.D. Soares, G.R. Basso, A.O. Spazzin, J. Griggs, R.R. Moraes; Mechanical reliability of air-abraded and acid-etched bonded feldspar ceramic, Dental Materials 32/3 (2016) 433-441.