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SHEAH BOND STRENGTH OF VENEERING CERAMIC TO ELECTROFORMED GOLD WITH THREE DIFFERENT SURFACE TREATMENT  

Kim Cheol (Department of Prosthodontics, Collage of Dentistry, Pusan National University)
Lim Jang-Seop (Department of Prosthodontics, Collage of Dentistry, Pusan National University)
Jeon Young-Chan (Department of Prosthodontics, Collage of Dentistry, Pusan National University)
Jeong Chang-Mo (Department of Prosthodontics, Collage of Dentistry, Pusan National University)
Jeong Hee-Chan (Department of Prosthodontics, Collage of Dentistry, Pusan National University)
Publication Information
The Journal of Korean Academy of Prosthodontics / v.43, no.5, 2005 , pp. 599-610 More about this Journal
Abstract
Purpose: The success of the bonding between electroformed gold and ceramic is dependent on the surface treatment of the pure gold coping. The purpose of this study was to evaluate the bonding strength between the electroformed gold and ceramic with varying surface treatment. Materials and methods: A total of 32 disks,8 were using conventional ceramometal alloy, 24 were using electroforming technique as recommended by manufacturer, were prepared. 24 electroformed disks were divided 3 groups according to surface treatment, i.e. 50 microns aluminium oxide sandblasting(GES-Sand), gold bonder treatment(GES-Bond) and $Rocatec^{TM}$ system(GES-Rocatec). For control group of conventional alloy 50 microns aluminium oxide treatment was done(V-Supragold). Energy dispersive x-ray analysis and scanning electron microscope image were observed. Using universal testing machine, shear bond strength and bonding failure mode at metal-porcelain interface were measured. Results and Conclusion: The following conclusions were drawn: 1. In the energy dispersive x-ray analysis, the Au was main component in electroformed gold(99.9wt%). After surface treatment, a little amount of $Al_2O_3(2.4wt%)$ were found in GES-Sand, and $SiO_2(4wt%)$ in GES-Bond. In GES-Rocatec, however, a large amount of $SiO_2(17.4wt%)$ were found. 2. In the scanning electron microscopy, similar pattern of surface irregu larities were observed in V-Supragold and GES-Sand. In GES-Bond, surface irregularities were increased and globular ceramic particles were observed. In GES-Rocatec, a large amount of silica particles attached to metal surface with increased surface irregularities were observed. 3. The mean shear bond strength values(MPa) in order were $22.9{\pm}3.7(V-Supragold),\;22.1{\pm}3.8(GES-Bond),\;20.1{\pm}2.8(GES-Rocatec)\;and\;13.0{\pm}1.4(GES-Sand)$. There was no significant difference between V-Supragold, GES-Bond, and GES-Rocatec. (P>0.05) 4. Most bonding failures modes were adhesive type in GES-Sand. However, in V-Supragold, GES-Bond and GES-Rocatec, cohesive and combination failures were commonly observed. From the result, with proper surface treatment method electroformed gold may have enough strength compare to conventional ceramometal alloy.
Keywords
Electroformed gold; Bond strength; Surface treatment;
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1 Erpenstein H, Borchard R, Kerschbaum T. Long-term clinical results of galvano-ceramie and glass-ceramic individual crowns. J Prosthet Dent 2000;83:530-4   DOI   ScienceOn
2 Wirz J, Hoffman A. Electroforming in restorative dentistry: new dimensions in biologically based protheses. Quintessence Pub. Co. 1999
3 Shimoe S, Tanoue N, Yanagida H, Atsuta M, Koizumi H, Matsumura H. Comparative strength of metal-ceramic and metal-composite bonds after extended thermocycling. J Oral Rehabil 2004;31:689-94   DOI   ScienceOn
4 Park CW. A study on the metal surface treatment of resin bonded retainer. J Korean Acad Prosthodont 1991;29:17-21
5 Kiyoko B. Q & A Ceramo-metal science. Ishiyaku Pub. Inc. Tokyo, 1989:45-6
6 Vickery RC, Badinelli LA, Nature of attachment forces in porcelain-gold systems. J Dent Res 1968;47:683-9   DOI   PUBMED   ScienceOn
7 Coornaert J, Adriaens P, Boever J. Long-term clinical study of porcelain-fused-to-gold restorations. J Prosthet Dent 1984;51:338-42   DOI   ScienceOn
8 Petteno D, Schierano G, Bassi F, Bresciano ME, Carossa S. Comparison of marginal fit of 3 metal-ceramic system: an in vitro study. lnt J Prosthodont 2000;13:405-8
9 Rogers OW, Armstrong BW. Electroforming a gold matrix for indirect inlays. J Prosthet Dent 1961;11:959-66   DOI
10 Giezendanner P. Suitability of electroforming for ordinary use: Experience with the Hafner HF 600. QDT 1998:39-56
11 Kern M. Thompson VP. Sandblasting and silica coating of a glass-infiltrated alumina ceramic: Volume loss, morphology, and changes in the surface composition. J Prosthet Dent 1994;71:453-61   DOI   ScienceOn
12 Guggeberger R. Rocatec system-Adhesion by tribochemical coating. Dtsch Zahnarztl Z 1989;44:874-6   PUBMED
13 Raigrodski AJ, Malcamp C, Rogers WA. Electroforming technique. J Dent Tech 1998;15:13-6
14 Setz J, Diehl J, Weber H. The marginal fit of cemented galvanoceramic crown. lnt J Prosthodont 1989;2:61-4
15 Holmes JR, Pilcher ES, Rivers JA, Stewart RM. Marginal fit of electroformed ceramometal crown. J Prosthodontics 1996;5:111-4   DOI   ScienceOn
16 Rocatec system. Imformation for use. 3M Espe
17 Behrend F. Gold electroforming system: GES restorations. Journal of Dental Technology 1997:31-7
18 Traini T. Electroforming technology for ceramometal restoration. QDT 1995:21-9
19 Lee SO, Woo YH, Choi DG, Kwon KR. Spectrophotometric analysis of the influence of metal substrate on the color of ceramic. J Korean Acad Prosthodont 2003;41:148-59
20 Kwon HB, Yim SH. A qualitative analysis of bonding between electroformed surface and veneering ceramics. J Korean Acad Prosthodont 2000;38:328-35
21 Kim JY, Pfeiffer P, Neidermeier W. Effect of laboratory procedures and thermocycling on the shear bond strength of resin-metal bonding systems. J Prosthet Dent 2003;90:184-9   DOI   ScienceOn
22 Yamamoto M. Metal-Ceramics. Quintessence. Pub. Co. Tokyo, 1985
23 Vense BS. Electroforming technology for galvanoceramic restorations. J Prosthet Dent 1997;77:444-9   DOI   PUBMED   ScienceOn
24 Groten M, Probster L. The influence of different cementation modes on the fracture resistance of feldsphathic ceramic crown. Int J Prosthodont 1997;10:169-77   PUBMED