Influence of surface layer on mechanical and corrosion properties of nickel-titanium orthodontic wires

Katić, Višnja; Ćurković, Helena Otmačić; Semenski, Damir; Baršić, Gorana; Marušić, Katarina; Špalj, Stjepan

doi:10.2319/090413-651.1

Cited by 49 publications

(41 citation statements)

References 28 publications

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“…Nitrogen ion implantation leads to surface composition changes from NiTi to TiN (titanium nitride), replacing known allergen nickel with inert nitrogen. Improvement of the corrosion resistance of NiTi wire with nitrified surface compared to the uncoated NiTi wire was confirmed in previous electrochemical researches performed in artificial saliva and fluoride mouth rinse solution 1,3,4) . Rhodium is a noble metal with white reflective appearance and excellent anti-corrosion properties 5) , but in the commercially available wires it was noted that this aesthetic feature diminishes fast within oral cavity 6,7) .…”

Section: Introductionsupporting

confidence: 53%

“…These prophylactic agents are usually applied once a week on teeth, as recommended by manufacturers. Testing media were heated in a water bath at 37°C, and their pH value was recorded with the pH meter MP 220 (Mettler Toledo, Greifensee, Artificial saliva solution was prepared from 1.5 g/L KCl, 1.5 g/L NaHCO 3, 0.5 g/L NaH2PO4-H2O, 0.5 g/L KSCN, 0.9 g/L lactic acid, pH value 4.8, as used in previous research 3,4,26,27) . The artificial saliva with the pH of 4.8 was used as imitation of more aggressive environment, which can be found in persons susceptible to caries; in such cases the prescription of adjuvant prophylactic agents would be recommended 15,28,29) .…”

Section: Methodsmentioning

confidence: 99%

“…Rhodium is a noble metal with white reflective appearance and excellent anti-corrosion properties 5) , but in the commercially available wires it was noted that this aesthetic feature diminishes fast within oral cavity 6,7) . Also, it was found that this surface coating was uneven and non-homogeneous, which caused susceptibility to corrosion in artificial saliva, due to formation of galvanic coupling of underlying NiTi to noble metals in the surface coating [2][3][4] . There are no data available regarding the interaction between the rhodium coating and fluoride solutions.…”

Section: Introductionmentioning

confidence: 99%

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Effect of pH, fluoride and hydrofluoric acid concentration on ion release from NiTi wires with various coatings

Katić

Ćurković

Bošnjak³

et al. 2017

Dent. Mater. J.

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Aim was to determine effect of pH, fluoride (F − ) and hydrofluoric acid concentration (HF) on dynamic of nickel (Ni 2+ ) and titanium (Ti 4+ ) ions release. Nickel-titanium wires with untreated surface (NiTi), rhodium (RhNiTi) and nitride (NNiTi) coating were immersed once a week for five min in remineralizing agents, followed by immersion to artificial saliva. Ion release was recorded after 3, 7, 14, 21 and 28 days. Pearson correlations and linear regression were used for statistical analysis. Release of Ni 2+ from NiTi and NNiTi wires correlated highly linearly positively with HF (r=0.948 and 0.940, respectively); for RhNiTi the correlation was lower and negative (r=−0.605; p<0.05). The prediction of Ti 4+ release was significant for NiTi (r=0.797) and NNiTi (r=0.788; p<0.05) wire. Association with F − was lower; for pH it was not significant. HF predicts the release of ions from the NiTi wires better than the pH and F − of the prophylactic agents.

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Section: Introductionsupporting

confidence: 53%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effect of pH, fluoride and hydrofluoric acid concentration on ion release from NiTi wires with various coatings

Katić

Ćurković

Bošnjak³

et al. 2017

Dent. Mater. J.

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“…By rhodium‐coating, a thin layer of rhodium and gold is applied to the surface of the wire, which results in better aesthetics of the wire, but the corrosion behavior is obviously not improved. The cause of increased corrosion rate of rhodium‐coated wire is the occurrence of a galvanic cell between the noble coating and NiTi due to the porosity of the coating, whereby the coating becomes a cathode and the basic material becomes an anode . The corrosion process is thereby carried out locally, in places where the coating is porous .…”

Section: Resultsmentioning

confidence: 99%

“…All the samples were made in triplicate. Released nickel (Ni 2+ ) and titanium (Ti 4+ ) ions were measured by inductively coupled optical emission spectroscopy (ICP‐OES) on the Thermo Elemental IRIS Intrepid II xsp Duo device (Thermo Electron Corporation, Austin, USA) according to the parameters described in previous works . Ion stabilization before the measurement was achieved by adding one drop of ultra‐pure nitric acid.…”

Section: Methodsmentioning

confidence: 99%

Effect of oral antiseptics on the corrosion stability of nickel‐titanium orthodontic alloys

Mlinarić

Kanižaj

Žuljević

et al. 2017

Materials & Corrosion

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The aim was to explore the influence of the interaction of oral antiseptics and various coatings on the corrosion behavior of nickel‐titanium (NiTi) orthodontic alloys. NiTi archwires with uncoated, rhodium‐coated, and nitride‐coated surface were exposed to artificial saliva pH 4.8 at the temperature of 37 °C, and to saliva with the addition of three commercial oral antiseptics (Curaspet, Gengigel, and Listerine). Electrochemical impedance spectroscopy and cyclic polarization were performed. Released nickel and titanium ions after a period of 7 days were measured by inductively coupled optical emission spectroscopy. Results demonstrate that the rate and degree of corrosion mainly increase with the addition of antiseptics. Electrochemical impedance spectroscopy indicates the biggest corrosion resistance in Gengigel. Rhodium‐coated NiTi demonstrates higher corrosion rate in saliva and in all antiseptics than uncoated and nitride‐coated NiTi. The highest tendency toward localized corrosion is seen in rhodium‐coated NiTi in all media, and least in nitride‐coated NiTi. The release of titanium ions mainly supports findings of general corrosion rate. These results indicate that both antiseptics and coating modify corrosion.

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Changes in mechanical properties of dental alloys induced by saliva and oral probiotic supplements

Trolić

Turco

Contardo

et al. 2020

Materialwissenschaft Werkst

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The effects of the saliva and oral probiotic supplements on roughness, friction and microhardness of the stainless steel (SS) and nickel‐titanium (NiTi) alloys used in dentistry was studied. The specimens of stainless steel, uncoated, rhodium‐coated and nitrided NiTi were exposed to artificial saliva with pH 4.8 and artificial saliva with addition of probiotic supplements containing bacteria Lactobacillus reuteri Prodentis through 28 days. First 5 days specimens were subjected to thermocycling to simulate intraoral conditions, 2500 cycles from 5 °C to 50 °C and the following days to the temperature of the 37±2 °C. Analyses demonstrated that oral probiotic supplements do not influence microhardness, roughness or friction of stainless steel above the influence of saliva. Probiotics increase roughness in NiTi, but without significant influence on friction, while microhardness in NiTi is not influenced. Surface nitriding reduces the influence of probiotics on roughness while rhodium coating increases it.

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Influence of surface layer on mechanical and corrosion properties of nickel-titanium orthodontic wires

Cited by 49 publications

References 28 publications

Effect of pH, fluoride and hydrofluoric acid concentration on ion release from NiTi wires with various coatings

Effect of pH, fluoride and hydrofluoric acid concentration on ion release from NiTi wires with various coatings

Effect of oral antiseptics on the corrosion stability of nickel‐titanium orthodontic alloys

Changes in mechanical properties of dental alloys induced by saliva and oral probiotic supplements

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