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Abstract

The hydrolytic stability of a group of experimental composite materials was evaluated. Seven distinct composites were formed by the mixing of a resin monomer mixture with silica filler that had been pre-treated with one of 7 different ethanol solutions. In one case, the filler was treated with an ethanol solution that contained only 3-methacryloyloxypropyltrimethoxysilane. In 5 cases, it was treated with solution containing a mixture of 3-methacryloyloxypropyltrimethoxysilane and one of the following hydrophobic fluoroalkyltrimethoxysilanes: trifluoropropyl-, nonafluorohexyl-, tridecafluorooctyl-, heptadecafluorodecyl-, and henicosafluorododecyl-trimethoxysilane. The tensile strength, after being immersed in water for 1800 days, of 2 of the experimental composites, whose pre-treatment regimen had included a fluoroalkyltrimethoxysilane, was significantly higher than that of the composite whose pre-treatment regimen had not included a fluoroalkyltrimethoxysilane. Moreover, there was no significant difference between the tensile strength of fresh samples of these 2 composites and the tensile strength of identically produced samples that had remained under water for 1800 days or that had been subjected to 30,000 cycles of thermal stress.

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References

Arikawa H, Kuwahata H, Seki H, Kanie T, Fujii K, Inoue K -1995-. Deterioration of mechanical properties of composite resins. Dent Mater J 14:78–83.

ADA -1977-. New American Dental Association Specification No. 27 for direct filling resins. J Am Dent Assoc 94:1191–1194.

Craig RG, Dootz ER -1996-. Effect of mixed silanes on the hydrolytic stability of composites. J Oral Rehabil 23:751–756.

Fujishima A -1988-. Evaluation of environmental durability in water of light cure composite resins by the direct tensile test. Jpn J Dent Mater 7:44–61.

Kalachandra S, Kusy RP -1991-. Comparison of water sorption by methacrylate and dimethacrylate monomers and their corresponding polymers. Polymer 32:2428–2432.

Kurata S, Yamazaki N -1992-. Effect of silane coupling agents with various organofunctional and hydrolysable group on silicon and its water-resistance. Jpn J Dent Mater 11:916–921.

Kurata S, Yamazaki N -1993-. Effect of silane coupling agents with a bisfunctional hydrolyzable group. Dent Mater J 12:127–135.

Montes-G GM, Draughn RA -1986-. In vitro surface degradation of composites by water and thermal cycling. Dent Mater 2:193–197.

Nihei T, Kurata S, Yamanaka H, Kurosaka N, Kondo Y, Yoshino N, et al. -2000-. Improvement of long term water resistance of silane coupling agent layer modified with polyfluoroalkyltrimethoxysilane/3-methacryloyloxypropyl-trimethoxysilane mixture. Jpn J Dent Mater 19:495–501.

10.

Nishiyama N, Komatsu K, Fukai K, Nemoto K -1995-. Influence of adsorption characteristics of silane on the hydrolytic stability of silane at the silica-matrix interface. Composites 26:309–313.

11.

Pearson GJ -1979-. Long term water sorption and solubility of composite filling materials. J Dent 7:64–68.

12.

Plueddemann EP, Pape PG -1985-. The use of mixed silane coupling agents. In: Proceedings, 40th Annual Conference, Reinforced Plastics/Composites Institute, The Society of the Plastics Industry, Inc., Session 17-F: 1-4.

13.

Schrader ME, Block A -1971-. Tracer study of kinetics and mechanism of hydrolytically induced interfacial failure. J Polym Sci Part C 30:281–291.

14.

Söderholm KJ -1981-. Degradation of glass filler in experimental composites. J Dent Res 60:1867–1875.

15.

Söderholm KJ, Zigan M, Ragan M, Fischlschweiger W, Bergman M -1984-. Hydrolytic degradation of dental composites. J Dent Res 63:1248–1254.

16.

Teranaka T, Iwamoto T, Yoshino N -1994-. Application of newly developed surface modifier to dental material. Bull Kanagawa Dent Coll 22:151–155.

17.

Yamanaka H, Teranaka T, Kurata S, Yoshino N -1996-. Improvement of bond strength and water resistance of silane coupling agent containing poly-fluoro-alkyltrimethoxysilane. Kyoto, Japan: Joint Canada-Japan Workshop on Composites, pp. 229-232.

Enhanced Hydrolytic Stability of Dental Composites by Use of Fluoroalkyltrimethoxysilanes

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