FILLER SYSTEMS BASED ON CALCIUM METAPHOSPHATES

被引：21

作者：

ANTONUCCI, JM

FOWLER, BO

VENZ, S

机构：

[1] National Institute of Standards and Technology Gaithersburg

[2] National Institute, Dental Research Bone Research Branch Research Program National Inst. of Standards and Technology Gai

[3] Caulk/Dentsply Milford, DE

来源：

DENTAL MATERIALS | 1991年 / 7卷 / 02期

关键词：

D O I：

10.1016/0109-5641(91)90058-7

中图分类号：

R78 [口腔科学];

学科分类号：

1003 ;

摘要：

Calcium metaphosphates (CMP's) - a unique class of phosphate minerals possessing polymeric structures, [Ca(PO3)2]n, and having refractive indices of approximately 1.54-1.59 - are optically compatible with resins such as BIS-GMA. In this study, several types of CMP's were prepared and evaluated for their potential as fillers for visible-light-activated (VLA) dental composites. The vitreous (V) and beta-crystalline forms of CMP were prepared by controlled thermolysis of monocalcium phosphate monohydrate, Ca(H2PO4)2 .H2O. Hybrid fillers were also prepared by thermal methods. Fillers, characterized by IR spectroscopy and optical microscopy, were prepared in several size ranges (e.g., 1-100-mu-m). VLA composites were formulated by use of both untreated and surface modified CMP's. V-CMP and its hybrids yielded composites which expanded when stored in water but were of low strength, e.g., diametral tensile strength, (DTS) = 8 MPa. beta-CMP composites were more moisture-resistant, had higher DTS's (from 12 to 33 MPa), and showed a tendency to arrest brittle fracture. These novel fillers have potential uses in resin-based materials such as dental composites, cements, and adhesives.

引用

页码：124 / 129

页数：6

共 16 条

[1]

Antonucci, Fowler, Venz, US Patent Application Serial No. 316,373: Calcium Metaphosphate-filled Compositions, (1989)

[2]

Antonucci, Misra, Peckoo, The Accelerative and Adhesive Bonding Capabilities of Surface Active Accelerators, J Dent Res, 60, pp. 1332-1342, (1981)

[3]

Battistone, Vincent, Borowski, Jackson, Gray, The Biocompatibility and Biodegradation of Calcium Metaphosphate Glass Fibers, J Dent Res, 64, (1985)

[4]

Chen, Brauer, Solvent Effects on Bonding Organosilane to Silica Surfaces, J Dent Res, 61, pp. 1439-1443, (1982)

[5]

Craig, Restorative Dental Materials, (1985)

[6]

Fowler, Kuroda, Changes in Heated and in Laser-Irradiated Human Tooth Enamel and their Probable Effects on Solubility, Calcif Tissue Int, 38, pp. 197-208, (1986)

[7]

Hill, Faust, Reynolds, The Binary System P2O5-2CaO.P2O5. Part 1, American Journal of Science, 242, pp. 457-477, (1944)

[8]

Hill, Hendricks, Fox, Cady, Acid Pyro- and Metaphosphates Produced by Thermal Decomposition of Monocalcium Phosphate, Industrial & Engineering Chemistry, 39, pp. 1667-1672, (1947)

[9]

Hill, Reynolds, Hendricks, Jacob, Nutritive Evaluation of Defluorinated Phosphates and Other Phosphorus Supplements. I. Preparation and Properties of the Samples, Assoc of Official Agricultural Chemists, 28, pp. 105-118, (1945)

[10]

Kelley, Dunn, Battistone, Casper, Vincent, Boronski, Totally Restorable, High-Strength, Glass/Ceramic Fibers for Strengthening and Reinforcing Biodegradable Composites, Transactions of the 12th Annual Meeting of the Society for Biomaterials, (1986)

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