Introduction: The combination of two or more dental alloys in the oral cavity, which are in contact with saliva, can lead to mutual interactions and the formation of corrosion products. These products are metal ions that are released into the body and can cause potential complications for the patient. (Ciszewski at al., 2007) Corrosion is an electrochemical process where an electric current occurs between metals through an electrolyte. The driving force of corrosion is the potential difference between these metals. (Milošev, 1994) In such a case, it is necessary to replace the primary material with another. Additional solution is to passivate the surface of the primary material. One of the surface passivation techniques is galvanic gilding, where a gold layer is applied to the material. (Faber, n.d.) Purpose: We would like to present the technological process of electroplating with the aim of passivating the surface. The microstructure of the Co-Cr alloy and gold, their bonding and the thickness of the gilding were checked by stereo, light and scanning electron mictoscope on the samples of the gilded metal base of the partial prosthesis made of Co-Cr alloy. Work methods: The theoretical part of the thesis is based on the reviewed domestic and foreign literature. Literature was searched in libraries and electronic databases. The practical part of the thesis includes the production of a partial prosthesis with a metal base made of Co-Cr alloy, its gilding and metallographic analysis of samples of the gilded metal base. We investigated the microstructure of the gilding, possible defects in the microstructure and its thickness by stereo, light and scanning electron mictoscope. We wanted to find out if the gold layer is continuous and compact. We also examined the microstructure of the boundary surface between the Co-Cr alloy and gold plating. Results: During the metallographic analysis of the samples, we encountered a defect in the microstructure of the gilded sublingual arch sample, which looks like porosity. No defects in the microstructure were found on the interface between the Co-Cr alloy and the gilding. When measuring the thickness of the gilding, we came to the conclusion that the gilding is uniformly thick in local areas, but the thickness varies throughout the entire structure. The gilding on the molar clasp is thicker than on the sublingual arch. Discussion and conclusion: We believe that the defect in the microstructure of the gilding represents a damaged part of the gilding that occurred during the surface treatment of the metallographic sample. If the defect occurred during the technological process of gilding, it represents an uncovered surface of the Co-Cr alloy structure, which would not prevent the further release of metal ions. The reason for the deviation in the thickness of the gilding after the construction is in the movement of the construction during the mixing of the electrolyte during the final gilding of the metal base.