Corrosion considerations in the brazing repair of cobalt-based partial dentures

Luthy, Heinz; Marinello, Carlo P; Reclaru, Lucien; Scharer, Peter

« Previous Next »Journal of Prosthetic Dentistry
Volume 75, Issue 5 , Pages 515-524, May 1996

Corrosion considerations in the brazing repair of cobalt-based partial dentures

Heinz Luthy, PhD (Associate Professor)
- Reprint requests to: Dr. Heinz Luthy University of zurich School of Dentistry Department of Fixed and Removable Prosthodontics and Dental Materials Plattenstrasse 11 CH-8028 Zurich, Switzerland
- Department of Fixed and Removable Prosthodontics and Dental Materials, University of Zurich, School of Dentistry, Zurich, Switzerland
Carlo P Marinello, DMD, PhD (Associate Professor)
- Department of Fixed and Removable Prosthodontics and Dental Materials, University of Zurich, School of Dentistry, Zurich, Switzerland
Lucien Reclaru, PhD (Head of Research and Development of Biomaterials Department)
- PX Holding Company, La Chaux-de-Fonds, Switzerland
Peter Scharer, DMD, PhD, MS (Professor and Head)
- Department of Fixed and Removable Prosthodontics and Dental Materials, University of Zurich, School of Dentistry, Zurich, Switzerland

Abstract

Cobalt-based alloys (CoCrMo) are usually used in dentistry as frameworks for removable partial dentures. In their basic form these structures function successfully. However, modifications or repairs of the frameworks may reduce their resistance to corrosion and, as a consequence, may provoke biologic reactions in the soft tissues. These reactions may be the result of different types of alloys that contact each other and, in the presence of saliva (based on potential differences), produce a galvanic cell. In this study, a clinical situation after repair of a removable partial denture was examined. The metallographic study of the prosthesis revealed a brazed zone where a gold braze was joining the CoCrMo framework with a CoCrNi type alloy (without Mo). The latter revealed signs of corrosion. Various electrochemical parameters (E_corr, E_couple, i_corr, i_couple) of these alloys were analyzed in the laboratory. The CoCrNi alloy had the lowest nobility and underwent galvanic corrosion in a galvanic couple with gold braze.

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