MEDICINSKI GLASNIK
MEDICINSKI GLASNIK
MEDICINSKI GLASNIK
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242<br />
Medicinski Glasnik, Volumen 6, Number 2, August 2009<br />
6. Fleming GJ,El-Lakwah SFA, Harris JJ, Marquis<br />
PM. The influence of interfacial surface roughness<br />
on bilayered ceramic specimen performance.<br />
Dent Mater 2004; 20:142-9.<br />
7. Ford C, Bush MB, Hu XY, Zhao H. A numerical<br />
study of fracture mode in contact damage in<br />
porcelain/Pd-alloy bilayers. Mater Sci Eng 2004;<br />
202-6.<br />
8. Milleding P, Wennerberg A, Alaeddin S, Karlson<br />
S, Simon E. Surface corrosion of dental ceramics<br />
in vitro. Biomater 1999; 20:733-46.<br />
9. Camacho GB, Vinha D, Panzeri H, Nonaka T,<br />
Goncalves M. Surface roughness of a dental ceramic<br />
after polishing with different vehicles and<br />
diamond pastes. Braz Dent J 2006; 17:145-9.<br />
10. Sarac D, Sarac YS, Yuzbasioglu E, Bal S. The effects<br />
of porcelain polishing systems on the color<br />
and surface texture of feldspatic porcelain. J Prosthet<br />
Dent 2006; 96:122-8.<br />
11. Mackert JR, Parry EE, Hashinger DT, Fairhurst<br />
CW. Measurement of oxide adherence to PFM alloys.<br />
J Dent Res 1984; 63:1335-40.<br />
12. King BW, Tripp HP, Duckworth WH. Nature of<br />
adherence of porcelain enamels to metals. J Am<br />
Cer Soc 1959; 42:504-25.<br />
13. Pask JA, Fulrath RM. Fundamentals of glass to<br />
metal bonding: Nature of wetting and adherence.<br />
J Am Cer Soc 1962; 45:592-6.<br />
14. Ahmad R, Morgano S, Wu BM, Giordano RA.<br />
An evaluation of the effects of handpiece speed,<br />
abrasive characteristics, and polishing load on the<br />
flexural strength of polished ceramics. J Prosthet<br />
Dent 2005; 94:421-9.<br />
15. ISO 9693 International Standards fot Dental Ceramics,<br />
International Organization for Standardization.<br />
Geneva, Switzerland, 1999.<br />
16. Papazoglou E, Brantley WA. Porcelain adherence<br />
vs force to failure for palladium-gallium alloys:<br />
a critique of metal-ceramic bond testing. Dent<br />
Mater 1998; 14:112-9.<br />
17. Hammad IA, Yousef FT. Designs of bond strength<br />
tests for metal-ceramic complexes: Review of the<br />
literature. J Prosthet Dent 1996; 75:602-8.<br />
18. Dent RJ, Preston JD, Moffa JP, Caputo A. Effect<br />
of oxidation on ceramometal bond strength. J<br />
Prosthet Dent 1982; 47:59-62.<br />
19. Anthony DH, Burnett AP, Smith DL, Brooks MS.<br />
Shear test for measuring bonding in cast gold<br />
alloy-porcelain composites. J Dent Res 1970;<br />
49:27-33.<br />
20. Moffa JP, Lugassy AA, Guckes AS, Gettleman L.<br />
An evaluation of nonprecious alloys for use with<br />
porcelain veneers. Part I. Physical properties. J<br />
Prosthet Dent 1973; 30:424-31.<br />
21. Diaz-Arnold A, Keller JC, Wightman JP, Williams<br />
VD. Bond strength and surface characterization<br />
of a Ni-Cr-Be alloys. Dent Mater 1996;<br />
12:58-63.<br />
22. Anusavice KJ. Phillips` science of dental materials.<br />
10th ed. Philadelphia: WB Saunders; 1996.<br />
pp. 655-720.<br />
23. 23.Warpeha WS Jr, Goodkind RJ. Design and<br />
technique variables affecting fracture resistance<br />
of metal-ceramic restorations. J Prosthet Dent<br />
1976; 35:291-8.<br />
24. Miller LL. Framework design in ceramo-metal<br />
restorations. Dent Cl N Am 1977; 21:699-716.<br />
25. Riley EJ. Ceramo-metal restoration. State of the<br />
science. Dent Cl N Am 1977; 21:669-82.<br />
26. Hofstede TM, Ercoli C, Graser GN, Tallents RH,<br />
Moss ME, Zero DT. Influence of metal surface<br />
finishing on porcelain porosity and beam failure<br />
loads at the metal-ceramic interface. J Prosthet<br />
Dent 2000; 84:309-17.<br />
27. Brantley WA, Cai Z, Papazoglou E, Mitchell JC,<br />
Kerber SJ,.Mann GP, Barr TL. X-ray diffraction<br />
studies of oxidized high-palladium alloys. Dent<br />
Mater 1996;12:333-41.<br />
28. Graham JD, Johnson A, Wildgoose DG, Shareef<br />
MY, Cannavina G. The effect of surface treatments<br />
on the bond strength of a nonprecious<br />
alloy-ceramic interface. In J Prosthodont 1999;<br />
12:330-4.<br />
29. Al Mutawa NJ, Sato T, Shiozawa I, Hasegawa S,<br />
Miura H. A study of the bond strength and color<br />
of ultralow-fusing porcelain. In J Prosthodon.<br />
2000; 13:159-65.<br />
30. McLean JW. The search for improved metal-ceramics.<br />
Quint Dental Technol 1978;2:51-9.<br />
31. Wu Y, Moser JB, Jameson LM, Malone WF. The<br />
effect of oxidation heat treatment on porcelain<br />
bond strength in selected base metal alloys. J<br />
Prosthet Dent 1991; 66:439-44.<br />
32. Miyagawa Y. X-ray difraction at the metal-ceramic<br />
interface. Surface oxides of 88% Au alloys containing<br />
Fe, In, Sn for porcelain fusing, Sh Rikog<br />
Zass 1978; 19:15-27.<br />
33. Rake PC, Goodacre CJ, Moore BK, Munoz<br />
CA. Effect of two opaquing techniques and two<br />
metal surface conditions on metal-ceramic bond<br />
strength. J Prosthet Dent 1995; 74:8-17.<br />
34. Pask JA, Tomisia AP. Oxidation and ceramic<br />
coatings on 80Ni20Cr alloys. J Dent Res 1988;<br />
9:1164-71.<br />
35. Wagner WC, Asgar K, Bigelow WC, Flinn RA.<br />
Effect of interfacial variables on metal-porcelain<br />
bonding. J Biomed Mater Res. 1993; 27:531-7.