Farklı Tiplerdeki Titanyum Altyapı Materyali ile Kompozit Rezin Tabakalama Materyalinin Bağlantı Dayanıklılığının İncelenmesi

Amaç: Titanyum ile kompozit rezin arasındaki bağlantıdayanım değerlerine farklı yüzey işlemlerinin etkisiniaraştırmaktır.Materyal-Method: Grade 2 (2), Grade 4 (4) ve Grade 5 (5)titanyum alaşımı kullanılarak 90 adet 8 mm çapında ve 4mm yüksekliğinde disk elde edildi (n=30). Disk yüzeylerinesırasıyla; 600 numara zımpara kâğıdı (kontrol grubu)uygulaması (a), zımparalamayı takiben 50 μm alüminyum oksittozu ile kumlama (b), zımparalamayı takiben tribokimyasalkumlama işlemleri (c) uygulanmıştır. Hazırlanan diskyüzeylerine, 4mm çapında ve 6 mm yüksekliğinde kompozitrezin uygulanmış ve bağlantı dayanımları universal test cihazıyardımıyla değerlendirilmiştir.Bulgular: Kruskal-Wallis analizi sonucu, titanyum tiplerive yüzey işlemleri arasında anlamlı farklılıklar bulunmuştur(p

Investigation of Bond Strength of Different Type of Titanium Infrastructure Material to Composite Resin Veneering Material

Objective: The purpose of this study to investigate the effect of different surface treatments on the bond strength values between titanium and composite resin. Material-Method: Grade 2 (2), Grade 4 (4) and Grade 5 (5) titanium alloys were used to obtain 90 discs 8 mm in diameter and 4 mm in height (n = 30). On the disk surfaces, respectively; (A), sanding with 50 μm aluminum oxide (b) followed by tribochemical sanding (c) followed by sanding. Composite resin with 4 mm diameter and 6 mm height was applied to the prepared disk surfaces and the connection strengths were evaluated with universal test machine. Results: Significant differences were found between the results of Kruskal-Wallis analysis, titanium types and surface treatments (p

PDF

___

1. Meiers J, Freilich M. Conservative anterior tooth replacement using fiber-reinforced composite. Oper Dent. 2000; 25(3): 239-43.
2. Görler O, Özdemir AK. Porselen ile titanyumun bağlanma dayanımına Nd-YAG lazerin etkinliğinin incelenmesi. Cumhuriyet Dent J. 2013; 16(3): 174-80.
3. Roach M. Base metal alloys used for dental restorations and implants. Dent Clin North Am. 2007; 51(3): 603-27.
4. O’Brien WJ. Dental materials and their selection. 2nd Edition. Chicago, Quintessence Publ. 1997.
5. Mudford L, Curtis R, Walter J. An investigation of debonding between heat-cured PMMA and titanium alloy (Ti-6AI-4V). Journal of Dentstry 1997; 25(5): 415-21.
6. Uzun İH, Bayındır F. Dental uygulamalarda titanyum ve özellikleri. Atatürk Üniv. Diş Hek. Fak. Derg. 2010; 20(2): 213-20.
7. Suzuki M, Bonfante E, Silva NR, Coelho PG. Reliability testing of indirect composites as single implant restorations. J Prosthodont. 2011; 20(7): 528-34.
8. Fujishima A, Fujishima Y, Ferracane JL. Shear bond strength of four commercial bonding systems to cpTi. Dent Mater. 1995; 11(2):82-6.
9. Taira Y, Yoshida K, Matsumura H, Atsuta M. Phosphate and thiophosphate primers for bonding prosthodontic luting materials to titanium. J Prosthet Dent. 1998; 79(4): 384-8.
10. Yanagida H, Matsumura H, Taira Y, Atsuta M, Shimoe S. Adhesive bonding of composite material to cast titanium with varying surface preparations. J Oral Rehabil. 2002; Feb; 29(2): 121-6
11. Lim BS, Heo SM, Lee YK, Kim CW. Shear bond strength between titanium alloys and composite resin: Sandblasting versus fluoride‐gel treatment. JBiomed Mater Res Part B: Appl Biomater. 2003; 64(1): 38-43.
12. Watanabe I, Kurtz KS, Kabcenell JL, Okabe T. Effect of sandblasting and silicoating on bond strength of polymerglass composite to cast titanium. J Prosthet Dent. 1999; 82(4): 462-7.
13. Özdemir E, Niğiz R, Zortuk M. Farklı yüzey hazırlıklarının porselen kompozit rezin bağlantısı üzerine etkisinin in-vitro araştırılması. Acta Odontol Turc. 2007; 24(2): 75.
14. Matinlinna J, Lassila L, Vallittu P. Evaluation of five dental silanes on bonding a luting cement onto silica-coated titanium. Journal of Dentistry 2006; 34(9): 721-6.
15. Behr M, Rosentritt M, Gröger G, Handel G. Adhesive bond of veneering composites on various metal surfaces using silicoating, titanium-coating or functional monomers. Journal of Dentistry 2003; 31(1): 33-42.
16. Kern M, Thompson VP. Sandblasting and silica coating of a glass-infiltrated alumina ceramic: volume loss, morphology, and changes in the surface composition. J Prosthet Dent. 1994; 71(5): 453-61.
17. Tsai PC, Meyers IA, Walsh LJ. Depth of cure and surface microhardness of composite resin cured with blue LED curing lights. Dent Mater. 2004; 20(4): 364-9.
18. Turssi C, De Magalhaes C, Serra M, Rodrigues A. Surface roughness assessment of resin-based materials during brushing preceded by pH-cycling simulations. Oper Dent. 2001; 26(6): 576-84.
19. Galo R, Ribeiro RF, Rodrigues RCS, Pagnano VdO, Mattos MdGCd. Effect of laser welding on the titanium composite tensile bond strength. Braz Dent J. 2009; 20(5): 403-9.
20. Matinlinna JP, Özcan M, Lassila LV, Vallittu PK. The effect of a 3-methacryloxypropyltrimethoxysilane and vinyltriisopropoxysilane blend and tris (3-trimethoxysilylpropyl) isocyanurate on the shear bond strength of composite resin to titanium metal. Dent Mater. 2004; 20(9): 804-13.