Fogorvosi szemle, 1990 (83. évfolyam, 1-12. szám)
1990-05-01 / 5. szám
<ati 'e Microprobe Analysis of Amalgam J. Dent. Res. 54, 218, 1975. — 8. Marek, M.: Acceleration of corrosion of dental amalgam by abrasion. J. Dent. Res. 63, 1010, 198!. — 9. Moberg, L. E.: Electrochemical properties of corroded amalgams. Scand. J. Dent. Res. 95, 441, 1987. — 10. Osborne, J. W.: Three year clinical performance of twelve amalgam alloys. A ADR Progr. and Abst. 59, No. 286, 1980. — llj Osborne, J. W., Leinfelder, K. F., Gale, E. N. and Sluder, T. B.: Two independent evaluation of ten amalgam alloys, J. Prost. Dent. 43, 622, 1980. — 12. Sarkar, N. K., Osborne, J. W. and Leinfelder, К. F.: In vitro corrosion and in vivo marginal fracture of dental amalgams. J. Dent. Res. 61, 1262, 1982. — 13. Sutfin, L. V. and Ogilve, R. E.: Scanning electron microscopy and energy dispersion microanalysis of metallograiphically polished dental amalgam surfaces. — 14. Sutow, E. J., Jones, D. W. and Hall, G. C.: Correlation of dental amalgam crevice corrosion with clinical ratings. J. Dent. Res. 68, 82, 1989. Szabó J. Dr., Herczegh B. Dr., Bánóczy J. Dr. and Szabó I. Dr.: Enriching of elements on the polished surface of „Homodent—1” and „Goodfill” amalgam fillings. The gamma—2 phase may be found on the polished surface of both the .Homodent—1” and the „Goodfill” amalgam fillings. In case of „Homodent—1” the tin shows two patches of enrichment of different diameters. The inhomogeneity of silver is less express on the surface of „Goodfill” than in case of „Homodent—1”. KÜLFÖLDRE DOLGOZÓ FOGTECHNIKAI LABOR KERÁMIA MUNKÁRA MEGRENDELÉST VÁLLAL NYUGATI HATÁRSZÉLIEK ELŐNYBEN. TELEFON: ESTE 06 34 80-907 143
