Objectives. This study was designed to verify whether nitridation treatment of the cutting surfaces resulted in surface or subsurface changes that produced an increase in the resistance to wear in nickel titanium (NiTi) endodontic files. Study design. Some experimental samples were exposed to ionic implantation by using 150 keV of nitrogen ions and doses of 1 × 1017 ions per cm2. Other samples were exposed to thermal nitridation processes performed for 480 minutes at 500°C temperature. Control samples were not exposed to any process. The chemical composition of the surface layers of each sample was determined by means of x-ray photoelectron spectroscopy. The cutting efficiency was tested on an endotraining bloc. Results. The experimental instruments showed in-depth distributions of chemical composition that were different from those seen in the control group; thermal-nitridated instruments demonstrated a surface ratio of nickel to titanium of 0.5. Implanted samples had a higher N/Ti ratio (1.2); this ratio may be due to the presence of a layer of titanium nitride. Samples in the experimental groups showed an increase in cutting ability as compared with the controls. Conclusions. Thermal nitridation and nitrogen-ionic implantation treatment of nickel-titanium files produced a higher wear resistance and an increased cutting capacity.

Objectives. This study was designed to verify whether nitridation treatment of the cutting surfaces resulted in surface or subsurface changes that produced an increase in the resistance to wear in nickel titanium (NiTi) endodontic files. Study design. Some experimental samples were exposed to ionic implantation by using 150 keV of nitrogen ions and doses of 1 × 1017 ions per cm2. Other samples were exposed to thermal nitridation processes performed for 480 minutes at 500°C temperature. Control samples were not exposed to any process. The chemical composition of the surface layers of each sample was determined by means of x-ray photoelectron spectroscopy. The cutting efficiency was tested on an endotraining bloc. Results. The experimental instruments showed in-depth distributions of chemical composition that were different from those seen in the control group; thermal-nitridated instruments demonstrated a surface ratio of nickel to titanium of 0.5. Implanted samples had a higher N/Ti ratio (1.2); this ratio may be due to the presence of a layer of titanium nitride. Samples in the exper- imental groups showed an increase in cutting ability as compared with the controls. Conclusions. Thermal nitridation and nitrogen-ionic implantation treatment of nickel-titanium files produced a higher wear resistance and an increased cutting capacity.

THE EFFECT OF SURFACE TREAT MENTS OF NICKEL-TITANIUM FILES ON WEAR AND CUTTING EFFICIENCY

RAPISARDA, Ernesto;TRIPI, Teresa Roberta;CONDORELLI, Guglielmo Guido
2000-01-01

Abstract

Objectives. This study was designed to verify whether nitridation treatment of the cutting surfaces resulted in surface or subsurface changes that produced an increase in the resistance to wear in nickel titanium (NiTi) endodontic files. Study design. Some experimental samples were exposed to ionic implantation by using 150 keV of nitrogen ions and doses of 1 × 1017 ions per cm2. Other samples were exposed to thermal nitridation processes performed for 480 minutes at 500°C temperature. Control samples were not exposed to any process. The chemical composition of the surface layers of each sample was determined by means of x-ray photoelectron spectroscopy. The cutting efficiency was tested on an endotraining bloc. Results. The experimental instruments showed in-depth distributions of chemical composition that were different from those seen in the control group; thermal-nitridated instruments demonstrated a surface ratio of nickel to titanium of 0.5. Implanted samples had a higher N/Ti ratio (1.2); this ratio may be due to the presence of a layer of titanium nitride. Samples in the experimental groups showed an increase in cutting ability as compared with the controls. Conclusions. Thermal nitridation and nitrogen-ionic implantation treatment of nickel-titanium files produced a higher wear resistance and an increased cutting capacity.
2000
Objectives. This study was designed to verify whether nitridation treatment of the cutting surfaces resulted in surface or subsurface changes that produced an increase in the resistance to wear in nickel titanium (NiTi) endodontic files. Study design. Some experimental samples were exposed to ionic implantation by using 150 keV of nitrogen ions and doses of 1 × 1017 ions per cm2. Other samples were exposed to thermal nitridation processes performed for 480 minutes at 500°C temperature. Control samples were not exposed to any process. The chemical composition of the surface layers of each sample was determined by means of x-ray photoelectron spectroscopy. The cutting efficiency was tested on an endotraining bloc. Results. The experimental instruments showed in-depth distributions of chemical composition that were different from those seen in the control group; thermal-nitridated instruments demonstrated a surface ratio of nickel to titanium of 0.5. Implanted samples had a higher N/Ti ratio (1.2); this ratio may be due to the presence of a layer of titanium nitride. Samples in the exper- imental groups showed an increase in cutting ability as compared with the controls. Conclusions. Thermal nitridation and nitrogen-ionic implantation treatment of nickel-titanium files produced a higher wear resistance and an increased cutting capacity.
nickel-titanium files; surface treatments; cutting efficiency
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/2071
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