Mechanism for Erosion of Glass-ionomer Cements in an Acidic Buffer Solution
- 1 December 1987
- journal article
- research article
- Published by SAGE Publications in Journal of Dental Research
- Vol. 66 (12), 1770-1774
- https://doi.org/10.1177/00220345870660121401
Abstract
In order to clarify the mechanism for erosion of glass-ionomer cements, we immersed two commercial luting cements in an acidic buffer solution under various conditions. The amounts of F, Al, Si, and Ca eluted from the cement were (1) in proportion to the square root of immersion time, (2) unrelated to shape or volume of the sample, (3) dependent on its surface area, and (4) not affected by shaking of the solution. It was concluded that the dissolution was controlled by the diffusion of those species in the cement matrix, which was influenced by the structure of the matrix and the concentration of H+ ion at the cement surface. The unreacted glass particles near the cement surface were dissolved by the long immersion, and many pores were left in the surface region.Keywords
This publication has 12 references indexed in Scilit:
- The dissolution mechanisms of silicate and glass-ionomer dental cementsBiomaterials, 1985
- Erosion Process of a Glassionomer Cement in Organic AcidsDental Materials Journal, 1984
- Degradative analysis of glass ionomer polyelectrolyte cementsJournal of Biomedical Materials Research, 1983
- A new laboratory method for evaluating the relative solubility and erosion of dental cementsJournal of Oral Rehabilitation, 1983
- Factors relating to the rate of fluoride-ion release from glass-ionomer cementJournal of Dentistry, 1982
- The physico-mechanical consequences of exposing glass ionomer cements to water during settingBiomaterials, 1981
- Characterization of glass-ionomer cements: 6. A study of erosion and water absorption in both neutral and acidic mediaJournal of Dentistry, 1980
- Glass Ionomer Cements: Chemistry of ErosionJournal of Dental Research, 1976
- Reactions in Glass Ionomer Cements: III. The Precipitation ReactionJournal of Dental Research, 1974
- Reactions in Glass Ionomer Cements: II. An Infrared Spectroscopic StudyJournal of Dental Research, 1974