Biocompatibility of Dental Alloys

## Abstract The aims of the study were to investigate the electrochemical response of a new dental Au‐20Pd‐10Ag‐5Ti alloy in artificial Carter‐Brugirard saliva and to assess its biocompatibility using gingival fibroblast culture. Electrochemical techniques of potentiodynamic and linear polarization

Dental alloys, having a wide range of compositions and different matrices, were analyzed with energydispersive x-ray spectrometry (EDXRS) and glow discharge optical spectrometry (GDOS) to verify and discuss the capabilities of EDXRS in dental alloy characterization and to compare the EDXRS data with

Short-term stress relaxation of four dental amalgam alloys was studied. Test materials included two conventional lathe-cut restoratives, a spherical alloy, and a dispersed phase product. Specimens were 24-hr-old 4 X 8-mm cylinders. The specimens were compressed and held a t constant strain on develo

## Abstract Nickel titanium (NiTi) shape memory alloys have been investigated for several years with regard to biomedical applications. However, little is known about the influences of surface modifications on the biocompatibility of these alloys. The effects of a range of surface treatments were i

## Abstract Improved techniques in preparing and sizing dental alloy powders containing Ag, Sn, and Cu have led to amalgams with higher strengths and less spread in dimensional change but very poor shelf life. Since maximum strengths occurred for amalgams containing about 15% more Sn than previousl

## Abstract The present work is aimed to evaluate the effects of a surface modification process on the biocompatibility of three vanadium‐free titanium alloys with biomedical applications interest. Chemical composition of alloys investigated, in weight %, were Ti‐7Nb‐6Al, Ti‐13Nb‐13Zr, and Ti‐15Zr‐