Influence of the Chemical Structure of Functional Monomers on Their Adhesive Performance
| Autor: | Isao Hirata, Kazuomi Suzuki, B. Van Meerbeek, Paul Lambrechts, Johan Snauwaert, Yasuhiro Yoshida, K.L. Van Landuyt, Masayuki Okazaki, J. De Munck |
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| Rok vydání: | 2008 |
| Předmět: |
chemistry.chemical_classification
Surface Properties Bond strength Dental Bonding Organophosphonates Polymer Dental bonding Methacrylate Resin Cements chemistry.chemical_compound Monomer Acrylates chemistry Chemical bond Chemical engineering Adhesives Dentin-Bonding Agents Polymer chemistry Methacrylates Adhesive Wetting General Dentistry |
| Zdroj: | Journal of Dental Research. 87:757-761 |
| ISSN: | 1544-0591 0022-0345 |
| Popis: | Functional monomers in adhesive systems can improve bonding by enhancing wetting and demineralization, and by chemical bonding to calcium. This study tested the hypothesis that small changes in the chemical structure of functional monomers may improve their bonding effectiveness. Three experimental phosphonate monomers (HAEPA, EAEPA, and MAEPA), with slightly different chemical structures, and 10-MDP (control) were evaluated. Adhesive performance was determined in terms of microtensile bond strength of 4 cements that differed only for the functional monomer. Based on the Adhesion-Decalcification concept, the chemical bonding potential was assessed by atomic absorption spectrophotometry of the dissolution rate of the calcium salt of the functional monomers. High bond strength of the adhesive cement corresponded to low dissolution rate of the calcium salt of the respective functional monomer. The latter is according to the Adhesion-Decalcification concept, suggestive of a high chemical bonding capacity. We conclude that the adhesive performance of an adhesive material depends on the chemical structure of the functional monomer. |
| Databáze: | OpenAIRE |
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