Your search keyword '"dental alloys"' showing total 14,800 results

1. Evaluation of the Tribocorrosion Behavior of Ti-6Al-4V Biomedical Alloy in Simulated Oral Environments.

Author

Fangaia, Sónia I. G., Messias, Ana, Guerra, Fernando A. D. R. A., Ribeiro, Ana C. F., Valente, Artur J. M., and Nicolau, Pedro M. G.

Subjects

DENTAL amalgams, DENTAL metallurgy, SURFACE roughness, MECHANICAL wear, SLIDING wear

Abstract

The sliding wear of Ti-6Al-4V alloys coexisting with dental amalgam in a simulated temperature-controlled cell was evaluated. Disc-shaped samples of Ti-6Al-4V (n = 30) and spherical silver amalgam (n = 30) were prepared. Discs were subjected to wear while immersed in artificial and fluoridated saliva as follows: Ti-6Al-4V–Ti-6Al-4V (G1); amalgam–amalgam (G2), and Ti-6Al-4V–amalgam (G3). Samples were analyzed for mass variation, volume loss, and surface roughness. Wear tracks were characterized by scanning electron microscopy. Wearing induced significant mass loss for all groups except G3 in fluoridated saliva: Ti-6Al-4V (p = 0.045) and amalgam (p = 0.732). These samples presented an increase in mean surface roughness (p = 0.032 and 0.010, respectively). Overall, Ti-6Al-4V showed 0.07 mm3 (95% CI: [0.06–0.07]) higher wear track volume. Ti-6Al-4V has a higher mass loss when subjected to fluoridated media but no significant roughness variation. Fluor-containing substances should be avoided over Ti-6Al-4V alloys placed in areas of mechanical wear, especially if dental amalgam is also present. [ABSTRACT FROM AUTHOR]

Published

2024

2. Characteristics of Si (C,N) Silicon Carbonitride Layers on the Surface of Ni–Cr Alloys Used in Dental Prosthetics.

Author

Klimek, Leszek, Makówka, Marcin, Sobczyk-Guzenda, Anna, and Kula, Zofia

Subjects

*DENTAL metallurgy, *PROSTHETICS, *CHROME-nickel steel, *PROTECTIVE coatings, *CHEMICAL structure, *NICKEL-chromium alloys, *CHROMIUM alloys

Abstract

Chromium- and cobalt-based alloys, as well as chrome–nickel steels, are most used in dental prosthetics. Unfortunately, these alloys, especially nickel-based alloys, can cause allergic reactions. A disadvantage of these alloys is also insufficient corrosion resistance. To improve the properties of these alloys, amorphous Si (C,N) coatings were deposited on the surfaces of metal specimens. This paper characterizes coatings of silicon carbide nitrides, deposited by the magnetron sputtering method on the surface of nickel–chromium alloys used in dental prosthetics. Depending on the deposition parameters, coatings with varying carbon to nitrogen ratios were obtained. The study analyzed their structure and chemical and phase composition. In addition, a study of surface wettability and surface roughness was performed. Based on the results obtained, it was found that amorphous coatings of Si (C,N) type with thicknesses of 2 to 4.5 µm were obtained. All obtained coatings increase the value of surface free energy. The study showed that Si (C,N)-type films can be used in dental prosthetics as protective coatings. [ABSTRACT FROM AUTHOR]

Published

2024

3. Shear bond strength of the ceramic veneer to additively manufactured titanium.

Author

Svanborg, P., Le, H. H., Sigurðardóttir, S. J., and Barkarmo, S.

Subjects

BOND strengths, SHEAR strength, TITANIUM, SCANNING electron microscopy, CERAMICS

Abstract

Objectives: The objective of this in vitro study was to evaluate the shear bond strength between the ceramic veneer and additively manufactured titanium with different surface treatments, and to compare with milled titanium. Also, to characterize the surface and the presence of an α‐case layer of additively manufactured and milled titanium. Material and Methods: Sixty additively manufactured titanium grade 23, and 20 milled titanium grade 4 cylindrical specimens were divided into four groups based on surface treatments, air‐particle abrasion and grinding. After ceramic veneering half of each group were thermocycled. The bond strength was analyzed using a shear bond strength test. The surfaces were analyzed using interferometry and scanning electron microscopy. Results: The grinding procedure and air‐particle abrading pressure had no significant effect on the shear bond strength (p =.264 and p =.344). Thermocycling showed a tendency towards an effect but not significant (p =.052). The group with the highest air‐abrading pressure showed the highest surface roughness. No presence of an α‐case layer was detected in any of the groups. Conclusion: Additively manufactured titanium grade 23 may be veneered with ceramics without prior grinding of the surfaces. [ABSTRACT FROM AUTHOR]

Published

2024

4. Oral Galvanism Side Effects: Comparing Alloy Ions and Galvanic Current Effects on the Mucosa-like Model.

Author

Chepelova, Natalia, Antoshin, Artem, Voloshin, Sergei, Usanova, Anna, Efremov, Yuri, Makeeva, Maria, Evlashin, Stanislav, Stepanov, Mikhail, Turkina, Anna, and Timashev, Peter

Subjects

ELECTRICITY, DENTAL metallurgy, CORROSION in alloys, IONS, ALLOYS, ELECTROLYTIC corrosion

Abstract

The interaction of different dental alloys with the oral environment may cause severe side effects (e.g., burning sensation, inflammatory reactions, carcinogenesis) as a result of oral galvanism. However, the pathogenesis of side effects associated with oral galvanism is still unclear, and the effects of direct current and alloy corrosion ions are considered potentially contributing factors. Therefore, the aim of this study was to systemically compare the damaging effects of (1) galvanism as a synergistic process (direct current + corrosion ions), (2) direct current separately, and (3) corrosion ions separately on an in vitro mucosa-like model based on a cell line of immortalized human keratinocytes (HaCaTs) to reveal the factors playing a pivotal role in dental alloys side effects. For this, we chose and compared the dental alloys with the highest risk of oral galvanism: Ti64–AgPd and NiCr–AgPd. We showed that galvanic current may be the leading damaging factor in the cytotoxic processes associated with galvanic coupling of metallic intraoral appliances in the oral cavity, especially in the short-term period (28 days). However, the contribution of corrosion ions (Ni2+) to the synergistic toxicity was also shown, and quite possibly, in the long term, it could be no less dangerous. [ABSTRACT FROM AUTHOR]

Published

2023

5. Tehnologii convenţionale şi alternative de realizare a protezelor dentare.

Author

Pop, Daniela-Maria, Sinescu, Cosmin, Crăciunescu, Emanuela-Lidia, Ciocan, Lucian Toma, Manole, Marius, Manolea, Horia-Octavian, Marinescu, Adrian George, Didier Miron, Flavius François, Titihazan, Florina, Romînu, Mihai, and Negruţiu, Meda-Lavinia

Abstract

Copyright of dentalTarget is the property of dentalTarget and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

6. Shear bond strength of the ceramic veneer to additively manufactured titanium

Author

P. Svanborg, H. H. Le, S. J. Sigurðardóttir, and S. Barkarmo

Subjects

dental alloys, dental porcelain, dental prosthesis, titanium, Dentistry, RK1-715

Abstract

Abstract Objectives The objective of this in vitro study was to evaluate the shear bond strength between the ceramic veneer and additively manufactured titanium with different surface treatments, and to compare with milled titanium. Also, to characterize the surface and the presence of an α‐case layer of additively manufactured and milled titanium. Material and Methods Sixty additively manufactured titanium grade 23, and 20 milled titanium grade 4 cylindrical specimens were divided into four groups based on surface treatments, air‐particle abrasion and grinding. After ceramic veneering half of each group were thermocycled. The bond strength was analyzed using a shear bond strength test. The surfaces were analyzed using interferometry and scanning electron microscopy. Results The grinding procedure and air‐particle abrading pressure had no significant effect on the shear bond strength (p = .264 and p = .344). Thermocycling showed a tendency towards an effect but not significant (p = .052). The group with the highest air‐abrading pressure showed the highest surface roughness. No presence of an α‐case layer was detected in any of the groups. Conclusion Additively manufactured titanium grade 23 may be veneered with ceramics without prior grinding of the surfaces.

Published

2024

7. Characteristics of Si (C,N) Silicon Carbonitride Layers on the Surface of Ni–Cr Alloys Used in Dental Prosthetics

Author

Leszek Klimek, Marcin Makówka, Anna Sobczyk-Guzenda, and Zofia Kula

Subjects

dental alloys, Si (C,N) coatings, PVD coatings, texture, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Chromium- and cobalt-based alloys, as well as chrome–nickel steels, are most used in dental prosthetics. Unfortunately, these alloys, especially nickel-based alloys, can cause allergic reactions. A disadvantage of these alloys is also insufficient corrosion resistance. To improve the properties of these alloys, amorphous Si (C,N) coatings were deposited on the surfaces of metal specimens. This paper characterizes coatings of silicon carbide nitrides, deposited by the magnetron sputtering method on the surface of nickel–chromium alloys used in dental prosthetics. Depending on the deposition parameters, coatings with varying carbon to nitrogen ratios were obtained. The study analyzed their structure and chemical and phase composition. In addition, a study of surface wettability and surface roughness was performed. Based on the results obtained, it was found that amorphous coatings of Si (C,N) type with thicknesses of 2 to 4.5 µm were obtained. All obtained coatings increase the value of surface free energy. The study showed that Si (C,N)-type films can be used in dental prosthetics as protective coatings.

Published

2024

8. The connection between discolored gingiva of abutment teeth and the presence of cast post.

Author

Ristić, Ljubiša, Lazić, Vojkan, Postić, Srdjan, Jelić, Nenad, Djordjević, Igor, and Mladenović, Raša

Subjects

*DENTAL abutments, *NICKEL-chromium alloys, *GINGIVA, *DENTURES, *ORAL surgery, *TOOTH fractures

Abstract

Background/Aim. The cause of discolored gingiva (DG) is the presence of metal in the gingival tissue. DG is a relatively common case and is caused by the deposition of amalgam material in the gingival tissue during dental application or oral surgery. The aim of this study was to determine the significance of the presence of a cast post for the appearance of DG of abutment teeth (AT) in relation to the type of alloy used to make the fixed dental prosthesis (FDP). Methods. The study included 327 subjects with FDP. A total of 1,585 AT were examined. The subjects were classified into four groups depending on the type of alloy used to fabricate their FDPs (silver-palladium, gold, nickel-chromium alloy, or a combination of them). The presence of a cast post was confirmed by X-ray or by inspection of the dental chart. The study was conducted over the course of one year. Results. DG was observed in more than one-third (37.7%) of the subjects, of which 57.3% had a cast post. In the case of AT, discoloration occurred in 14.6%. Cast post was present in 92.7% of AT with DG. Conclusion. DG occurred in all groups of subjects regardless of the type of alloy from which the FDP was fabricated. The presence of a cast post is of great significance for the appearance of gray-bluish discoloration of the gingiva. [ABSTRACT FROM AUTHOR]

Published

2023

9. Clinical Evaluation of Corrosion Resistance, Ion Release, and Biocompatibility of CoCr Alloy for Metal-Ceramic Restorations Produced by CAD/CAM Technologies.

Author

Tomova, Zlatina, Vlahova, Angelina, Zlatev, Stefan, Stoeva, Ilyana, Tomov, Desislav, Davcheva, Delyana, and Hadzhigaev, Viktor

Subjects

INDUCTIVELY coupled plasma mass spectrometry, CORROSION resistance, LIQUID chromatography-mass spectrometry, DENTAL metallurgy, DENTAL crowns

Abstract

Background. CAD/CAM technologies facilitate using powder CoCr alloys to produce metal-ceramic dental restorations. However, base alloys may induce oxidative stress in the oral cavity due to corrosion and ion release. This study evaluated resistance to corrosion and release of metal ions from 3D printed CoCr dental alloy and their effect on oral oxidative stress. Methods. Metal-ceramic crowns with 3D printed copings from CoCr alloy EOS CobaltChrome SP2 (EOS, Germany) were fabricated for 35 patients. Inductively coupled plasma mass spectrometry (ICP-MS) was used for measuring the concentration of Co and Cr ions in non-stimulated saliva before prosthetic treatment (BPT), at 2 h and 7 days after the dental treatment (APT2, APT7, respectively). Open circuit potentials (Eocp) were evaluated at APT2 and APT7. Estimating oral oxidative stress, measurements of 8-isoprostaglandin F2-alpha were conducted using liquid chromatography-tandem mass spectrometry (LC-MS/MS) at stages BPT, APT2, and APT7. Results. Salivary Co level increased at APT2 and decreased to the initial levels at APT7. No statistical difference was found between the levels of 8-isoPGF2-alpha measured, and between the Eocp measurements at APT2 and APT7. Conclusions. The studied alloy showed stable corrosion resistance and the metal ion release did not induce oral oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2023

10. Nickel-titanium files in endodontics: Development, improvement and modifications of nickel-titanium alloy

Author

Živković Slavoljub, Jovanović-Medojević Milica, Nešković Jelena, and Popović-Bajić Marijana

Subjects

dental alloys, endodontics, mechanical phenomena, nickel, root canal preparation, surface properties, titanium, Medicine (General), R5-920

Abstract

nema

Published

2023

11. Thermal expansion and corrosion resistance of cobalt-chromium alloys fabricated by contemporary manufacturing processes. An in vitro study

Author

Bonothu Balaji, Dileep Nag Vinnakota, Vijaya Sankar V, and Srinivas Rao Pottem

Subjects

chromium alloys, corrosion, temperature, surface properties, lasers, dental alloys, Dentistry, RK1-715

Abstract

In Purpose: The fabrication technique can influence the mechanical properties of Cobalt-Chromium (Co-Cr) dental alloys. Hence, the present study aims to determine the corrosion resistance and thermal expansion of alloys manufactured using three contemporary techniques. Material and Methods: A total of nine specimens of Co-Cr alloy were prepared according to ISO 22674 by each one of the three manufacturing processes (three in each process); conventional casting, direct metal laser sintering (DMLS) and milling (MIL). All these specimens were tested for coefficient of thermal expansion and corrosion resistance. The data was tabulated and analyzed statistically. Results: The difference in the thermal expansion of alloys fabricated using three techniques was non-significant at almost all the temperatures from 50 ºC to 950 ºC (p>0.05), except 450 ºC and 600 °C. The polarization resistance of specimens manufactured using the conventional method was more compared to DMLS and MIL at pH 5 (Conventional>MIL>DMLS) (p

Published

2022

12. Comparative study on metal versus zirconium dioxide infrastructure manufacturing in prosthetic rehabilitation in the maxillary frontal zone

Author

Sergiu Drafta, Viorel Perieanu, Radu Costea, Oana Eftene, Mihai Burlibasa, Raluca Maria Manea, Florentina Caministeanu, Mircea Carabela, Ioana-Cristina Neagoe, Raluca Costea, Irina Adriana Beuran, and Nicoleta Maru

Subjects

prosthetic restorations, infrastructure, dental alloys, zirconium dioxide, Medicine, Medicine (General), R5-920

Abstract

Prosthetic rehabilitation of the maxillary front teeth is an extremely laborious problem for the dental team, consisting of the dentist and the dental technician. If for the physiognomic component the most recommended materials are the ceramic masses, for the resistance substrate there are several variants. Conventional technologies using dental alloys and modern ones involving the use of zirconium dioxide can be used successfully in performing fixed prosthetic restorations in the maxillary frontal area, both options having both advantages and disadvantages, as we will describe in this material.

Published

2022

13. Mechanical Characteristics of Boron and Cerium Added NiCrMo Non-Precious Dental Casting Alloys.

Author

Haider, Ali, Jaffery, Syed Husain Imran, Khan, Aamir Nusair, Ulqadir, Najam, and Xiubing Jing

Subjects

DENTAL metallurgy, DENTAL casting, CERIUM, CERIUM oxides, DENTURES, TENSILE strength, DIFFERENTIAL thermal analysis, BORON steel

Abstract

Nickel-Chromium-Molybdenum (Ni-Cr-Mo) alloys are widely used for dental applications. This research was aimed to investigate improvement in the mechanical properties of Ni-Cr-Mo alloy through Boron and Cerium doping. These alloys were doped with boron and boron+cerium alloying elements. The mechanical testing of the samples revealed that minor addition of these alloying elements significantly improved the ultimate tensile strength and yield strength. Moreover, the melting points of the doped samples, determined by differential thermal analysis, decreased appreciably with doping elements. Furthermore, detailed wear testing was carried out to analyze the in-situ behavior of the alloys. Significant improvement in wear rate was noted for the boron and boron+cerium added alloy samples. Also biocompatibility for the three alloys in cytotoxicity test proved the suitability for the use of these alloys in dental prostheses. [ABSTRACT FROM AUTHOR]

Published

2023

14. Comparative corrosion behavior of Au50-Ag25-Pd25 and Ni88.6-Cr11.4 alloys utilized in dental applications

Author

Irfan Liaquat, Amer Bashir Ziya, Warda Mushtaq, Athar Ibrahim, Urva Malik, Gao Qilong, and Muhammad Danial

Subjects

Dental alloys, gold-silver-palladium, nickel-chromium, corrosion, electrochemical tests, surface morphology, Chemistry, QD1-999

Abstract

The electrochemical behaviour of alloys (Au50-Ag25-Pd25 and Ni88.6-Cr11.4) was studied in Fusayama's artificial saliva at pH 6.5 and 37 °C by using open circuit potential, electro­chemical impedance spectroscopy, and potentiodynamic polarization measure­ments. Electrochemical impedance spectroscopy results were simulated with an equivalent electrical circuit. After immersion in artificial saliva, surface characterization of samples was done using scanning electron microscopy connected with energy-dispersive spectro­scopy. All obtained results revealed that Au50-Ag25-Pd25 alloy is much more resistive than Ni88.6-Cr11.4 and can be recommended for the effective treatment of patients with dental prosthetics that have metal frameworks. s.

Published

2023

15. Oral Galvanism Side Effects: Comparing Alloy Ions and Galvanic Current Effects on the Mucosa-like Model

Author

Natalia Chepelova, Artem Antoshin, Sergei Voloshin, Anna Usanova, Yuri Efremov, Maria Makeeva, Stanislav Evlashin, Mikhail Stepanov, Anna Turkina, and Peter Timashev

Subjects

dental alloys, biocompatibility, toxicity, side effects, galvanic corrosion, galvanic current, Biotechnology, TP248.13-248.65, Medicine (General), R5-920

Abstract

The interaction of different dental alloys with the oral environment may cause severe side effects (e.g., burning sensation, inflammatory reactions, carcinogenesis) as a result of oral galvanism. However, the pathogenesis of side effects associated with oral galvanism is still unclear, and the effects of direct current and alloy corrosion ions are considered potentially contributing factors. Therefore, the aim of this study was to systemically compare the damaging effects of (1) galvanism as a synergistic process (direct current + corrosion ions), (2) direct current separately, and (3) corrosion ions separately on an in vitro mucosa-like model based on a cell line of immortalized human keratinocytes (HaCaTs) to reveal the factors playing a pivotal role in dental alloys side effects. For this, we chose and compared the dental alloys with the highest risk of oral galvanism: Ti64–AgPd and NiCr–AgPd. We showed that galvanic current may be the leading damaging factor in the cytotoxic processes associated with galvanic coupling of metallic intraoral appliances in the oral cavity, especially in the short-term period (28 days). However, the contribution of corrosion ions (Ni2+) to the synergistic toxicity was also shown, and quite possibly, in the long term, it could be no less dangerous.

Published

2023

16. Variable impact by ambient temperature on fatigue resistance of heat-treated nickel titanium instruments

Author

Arias, Ana, Hejlawy, Samer, Murphy, Sarah, de la Macorra, Jose C, Govindjee, Sanjay, and Peters, Ove A

Subjects

Biomedical and Clinical Sciences, Dentistry, Alloys, Dental Alloys, Dental Instruments, Equipment Failure, Hot Temperature, Materials Testing, Root Canal Preparation, Titanium, Body temperature, NiTi, Cyclic fatigue, Martensitic transformation temperature

Abstract

ObjectivesThe purpose of this study was to evaluate the effect of different ambient temperatures on cyclic fatigue (CF) life of two NiTi rotary systems and correlate the results with martensitic transformation temperatures.Materials and methodsHeat-treated NiTi Vortex Blue (VB) and EdgeSequel Sapphire (SP) instruments (tip sizes no. 20, 25, 30, 35, 40) were tested for CF resistance at room and body temperature (n = 20 each group) in a simulated canal (angle of curvature 60°; radius 3 mm; center from instrument tip 4.5 mm) with a motor controlled by an electric circuit. Mean half-life, beta and eta Weibull parameters were determined and compared. Two further instruments of each brand were subjected to differential scanning calorimetry (DSC).ResultsTemperature had an effect on fatigue behavior: all instruments lasted significantly longer at room than at body temperature. All VB significantly outlasted those of SP at body temperature; while smaller diameters of VB (size no. 20) were also significantly more resistant than SP when tested at room temperature; SP with larger diameters (sizes no. 30, no. 35, and no. 40) lasted significantly longer than VB did.ConclusionsImmersion in water at body temperature was associated with a marked decrease in the fatigue life of all rotary instruments tested. VB instruments were significantly more CF resistant at body temperature and showed the highest predictability in terms of fracture resistance.Clinical relevanceRotary instruments manufactured with different post-machining heat treatment responded differently to changed ambient temperatures. DSC assessment of martensitic conversion temperatures helps to predict the behavior of nickel titanium rotaries in different environments.

Published

2019

17. COMPARATIVE EVALUATION OF THE CORROSION RESISTANCE OF SOME CO-CR ALLOYS USED IN METAL-CERAMIC TECHNOLOGY

Author

Drăguș Laurențiu, Buciumeanu Mihaela, Amorțilă Valentin, Comăneanu Raluca Monica, Ungureanu Elena, and Hancu Violeta

Subjects

corrosion, dental alloys, artificial saliva, Dentistry, RK1-715

Abstract

Co-Cr alloys are still used in metal-ceramic technology on the large scale. The purpose of this study was to provide a comparative analysis of the corrosion resistance by the polarization resistance technique of two Co-Cr-based alloys (codified Co-Cr- P and Co-Cr-PW) produced by the same manufacturer, which have a minor variation in chemical composition. Corrosion tests were performed at a temperature of 37 ± 0.5° C in a bath with heating and recirculation, in artificial saliva (SA) Carter Brugirard at pH = 7.58. Both tested alloys showed an increased corrosion resistance when immersed in artificial saliva, proving a good corrosion resistance and therefore a good biocompatibility. The Co-Cr-P test showed superior electrochemical values ​​and, implicitly, higher corrosion resistance.

Published

2022

18. Corrosion Assessment of Nickel – Base – Dental Alloys in Ringer Biological Solution Studied by Electrochemical Techniques

Author

L. Benea, L. Dragus, and D. Mocanu

Subjects

corrosion, biocompatibility, dental alloys, ringer fluid, dental bridge, electrochemical methods, Mining engineering. Metallurgy, TN1-997, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The aim of this paper was to study the corrosion behavior of Nickel – Base – Dental Alloys in Ringer biological fluid. The Nickel base alloys are widely used for medical purposes, especially for prosthetic works in the field of dentistry. The applied electrochemical methods used for corrosion investigations are Open Circuit Potential, Linear Polarization during time of immersion in order to calculate the polarization resistance and corrosion rate. Potentiodynamic Polarization diagrams was performed to appreciate the passive domain. Ni-Cr Ugirex alloy show a better corrosion resistance in Ringer solution which will be reflected in a longer life of the dental structures made with this alloy as compared to the Ni-Cr Ducinox alloy, which will result in dental structures with a shorter lifespan. The electrochemical studies has shown that the alloy have a corrosion behavior similar to a passivating alloy, displaying an extensive passivity area due to formation of an oxide film.

Published

2022

19. Biomechanical Behavior of Narrow Dental Implants Made with Aluminum- and Vanadium-Free Alloys: A Finite Element Analysis.

Author

Zapata, José Manuel, Leal, Eduardo, Hunter, Renato, de Souza, Raphael Freitas, and Borie, Eduardo

Subjects

*DENTAL metallurgy, *DENTAL implants, *FINITE element method, *ALLOYS, *DEAD loads (Mechanics), *TITANIUM alloys

Abstract

Titanium (Ti) alloys used for narrow dental implants usually contain aluminum (Al) and vanadium (V) for improved resistance. However, those elements are linked to possible cytotoxic effects. Thus, this study evaluated the biomechanical behavior of narrow dental implants made with Al- and V-free Ti alloys by the finite element method. A virtual model of a partially edentulous maxilla received single implants (diameter: 2.7 and 2.9 mm; length: 10 mm) at the upper lateral incisor area, with respective abutments and porcelain-fused-to-metal crowns. Simulations were performed for each implant diameter and the following eight alloys (and elastic moduli): (1) Ti–6Al–4V (control; 110 GPa), (2) Ti–35Nb–5Sn–6Mo–3Zr (85 GPa), (3) Ti–13Nb–13Zr (77 GPa), (4) Ti–15Zr (113 GPa), (5) Ti–8Fe–5Ta (120 GPa), (6) Ti–26.88Fe–4Ta (175 GPa), (7) TNTZ–2Fe–0.4O (107 GPa), and (8) TNTZ–2Fe–0.7O (109 GPa). The implants received a labially directed total static load of 100 N at a 45° angle relative to their long axis. Parameters for analysis included the maximum and minimum principal stresses for bone, and von Mises equivalent stress for implants and abutments. Ti–26.88Fe–4Ta reaches the lowest maximum (57 MPa) and minimum (125 MPa) principal stress values, whereas Ti–35Nb–5Sn–6Mo–3Zr (183 MPa) and Ti–13Nb–13Zr (191 MPa) models result in the highest principal stresses (the 2.7 mm model surpasses the threshold for bone overload). Implant diameters affect von Mises stresses more than the constituent alloys. It can be concluded that the narrow implants made of the Ti–26.88Fe–4Ta alloy have the most favorable biomechanical behavior, mostly by mitigating stress on peri-implant bone. [ABSTRACT FROM AUTHOR]

Published

2022

20. Ni-Cr Alloys Assessment for Dental Implants Suitability.

Author

Achitei, Dragos Cristian, Baltatu, Mădălina Simona, Vizureanu, Petrică, Sandu, Andrei Victor, Benchea, Marcelin, and Istrate, Bogdan

Subjects

DENTAL metallurgy, DENTAL implants, DENDRITIC crystals, MODULUS of elasticity, ELASTIC modulus

Abstract

The performance of the field and the condition of success in oral implantology today require the review and reevaluation of the means that contribute essentially to ensuring the stability and durability of the implant, starting from the nature of the biomaterial and continuing with the characteristics of the optimally designed biosurface. This paper proposes a comparative analysis of three commercial alloys, VeraBond, Kera N, and VeraSoft, compared to a modified dental alloy, with the aim of improving some mechanical properties. They have been studied structurally and mechanically. The microstructural structure shows that the alloys crystallize in the face-centered cube system, and the cast alloy has a dendritic structure with large grains. XRD diffractograms highlight that alloys exhibit three compounds Cr156.00 Al596.00: 9013031, Ni4.00, and Cr30.00Al48.00. The hardness measurements showed values between 203 HV and 430 HV. As the percentage of silicon increases, the hardness decreases. The modulus of elasticity obtained by the indentation method for the dental alloys was in the range of 46–153 GPa. The results showed that the hardness and elastic modulus of the new alloy was significantly minimized compared to the classical alloys used. [ABSTRACT FROM AUTHOR]

Published

2022

21. Advanced dental metallic materials.

Author

Kumar ST

Subjects

Humans, Dental Materials adverse effects, Dental Alloys

Published

2024

22. The dimensions of preformed nickel-titanium archwires measured at the bracket positions corresponding to the central incisor, canine, and first molar.

Author

Sugiyama Y, Tochigi K, Tachi A, and Arai K

Subjects

Humans, Cuspid anatomy & histology, Dental Alloys, Nickel, Orthodontic Wires, Molar, Titanium, Incisor anatomy & histology, Orthodontic Brackets, Orthodontic Appliance Design

Abstract

Introduction: Variation in the thickness of commercially available preformed rectangular archwires at the bracket positions has not been thoroughly studied. Therefore, this study measured the edgewise (height) and flatwise (width) dimensions of preformed rectangular nickel-titanium (NiTi) archwires at bracket positions corresponding to the central incisor, canine, and first molar and compared them among bracket positions., Methods: Sixty types of preformed rectangular NiTi mandibular archwires indicated as 0.019 × 0.025-in were obtained from 14 manufacturers. The height and width dimensions of archwires were measured at 4 points (3 bracket positions corresponding to the central incisor, canine, and first molar, and 1 terminal end) of each side of each archwire using a micrometer and compared with the indicated dimensions using 1-sample t tests. Furthermore, the measured dimensions were compared among the 3 bracket positions using a 1-way analysis of variance and Bonferroni post-hoc test., Results: The measured dimensions were significantly smaller than the indicated dimensions for all points except the central incisor point for height and significantly smaller than the indicated dimensions for all points for width. Comparisons among points showed that for height, the central incisor point was significantly larger than the first molar and terminal points. However, no significant differences were found for width at any point., Conclusions: The measured dimensions of preformed NiTi archwires at the bracket positions were generally smaller than the indicated dimensions, with variations observed not only among products but also among manufacturers., (Copyright © 2024 American Association of Orthodontists. Published by Elsevier Inc. All rights reserved.)

Published

2024

23. Strength of titanium-zirconium alloy implants with a conical connection after implantoplasty.

Author

Shah SD, Zheng F, Seghi RR, and Lee DJ

Subjects

Humans, Dental Alloys, Alloys, Peri-Implantitis etiology, In Vitro Techniques, Dental Prosthesis Design, Dental Implants, Titanium, Zirconium, Dental Stress Analysis, Dental Restoration Failure, Materials Testing

Abstract

Statement of Problem: Peri-implantitis occurs around dental implants, and implantoplasty has been used to address this ongoing disease; however, the changes to the physical properties of an implant after implantoplasty have not been well documented., Purpose: The purpose of this in vitro study was to determine the effect of implantoplasty on fracture strength and the load required for plastic deformation after cyclic fatigue on dental implants., Material and Methods: Twenty-six titanium/zirconium (TiZr) alloy implants (Roxolid Bone Level Implant; 4.1×10 mm) were embedded with 50% thread exposure and divided into 4 groups based on whether they had implantoplasty treatment by using different diamond rotary instruments and/or cyclic loading at 250 N for 2 million cycles: C0 (control, no cyclic loading), T0 (test, no cyclic loading), CM (control, cyclic loading), and TM (test, cyclic loading). After implantoplasty and/or cyclic loading, all implants underwent a load-to-failure test. The maximum fracture strength (FS) and load required for the onset of plastic deformation (PD) were recorded in Newtons. One-way ANOVA and nonparametric comparisons with control by using the Dunn and Wilcoxon method for joint ranking were used for statistical analysis., Results: The mean ±standard deviation FS for C0, CM, T0, and TM was 1465.2 ±86.4 N, 1480.7 ±64.1 N, 1299.3 ±123.8 N, and 1252.1 ±85.7 N, respectively. The mean ±standard deviation load for onset of PD for C0, CM, T0, and TM was 860.2 ±88.1 N, 797.0 ±130.5 N, 776.5 ±181.8 N, and 631.3 ±84.5 N, respectively. The TM group had a significantly lower FS and PD than the C0, CM, and T0 groups (P<.05) CONCLUSIONS: Both fracture strength (FS) and the onset of plastic deformation (PD) were significantly reduced after a TiZr alloy implant received implantoplasty and cyclic loading., (Copyright © 2022 Editorial Council for The Journal of Prosthetic Dentistry. Published by Elsevier Inc. All rights reserved.)

Published

2024

24. MRI susceptibility artefacts caused by orthodontic wire.

Author

Iwamoto Y, Shimamoto H, Felemban D, Terai T, Kreiborg S, Mallya SM, Yang FG, Tanikawa C, and Murakami S

Subjects

Titanium, Stainless Steel, Humans, Chromium Alloys chemistry, Dental Alloys, Artifacts, Orthodontic Wires, Magnetic Resonance Imaging methods, Phantoms, Imaging

Abstract

Objectives: To evaluate magnetic susceptibility artefacts produced by orthodontic wires on MRI and the influence of wire properties and MRI image sequences on the magnitude of the artefact., Methods: Arch form orthodontic wires [four stainless steels (SS), one cobalt chromium (CC) alloy, 13 titanium (Ti) alloys] were embedded in a polyester phantom, and scanned using a 1.5-T superconducting magnet scanner with an eight-channel phased-array coil. All wires were scanned with T1-weighted spin echo (SE) and gradient echo (GRE) sequences according to the American Society for Testing and Materials (ASTM) F2119-07 standard. The phantom also scanned other eight sequences. Artefacts were measured using the ASTM F2119-07 definition and OsiriX software. Artefact volume was analysed according to metal composition, wire length, number of wires, wire thickness, and imaging sequence as factors., Results: With SE/GRE, black/white artefacts volumes from all SS wires were significantly larger than those produced by CC and Ti wires (P < .01). With the GRE, the black artefacts volume was the highest with the SS wires. With the SE, the black artefacts volume was small, whereas white artefacts were noticeable. The cranio-caudal extent of the artefacts was significantly longer with SS wires (P < .01). Although a direct relationship of wire length, number of wires, and wire thickness with artefact volume was noted, these factors did not influence artefact extension in the cranio-caudal direction., Conclusions: Ferromagnetic/paramagnetic orthodontic wires create artefacts due to local alteration of magnetic field homogeneity. The SS-type wires produced the largest artefacts followed by CC and Ti., (© The Author(s) 2024. Published by Oxford University Press on behalf of the British Institute of Radiology and the International Association of Dentomaxillofacial Radiology. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2024

25. The effect of single versus multiple piezocisions on the rate of canine retraction: a randomized controlled trial.

Author

Eid FY and El-Kalza AR

Subjects

Humans, Male, Female, Adolescent, Bicuspid surgery, Orthodontic Wires, Young Adult, Tooth Extraction, Adult, Cone-Beam Computed Tomography, Maxilla surgery, Dental Alloys, Nickel, Titanium, Tooth Movement Techniques methods, Tooth Movement Techniques instrumentation, Cuspid, Root Resorption etiology, Piezosurgery methods

Abstract

Background: Piezocision is a minimally invasive surgical method aiming to accelerate tooth movement. However, its effect was found to be transient, appertaining to the regional acceleratory phenomenon (RAP). Hence, the aim of the study was to evaluate the effect of single and multiple piezocisions on the rate of orthodontic tooth movement (OTM). Moreover, the impact of both protocols on canine tipping and orthodontically induced inflammatory root resorption (OIIRR) has been assessed., Methods: Thirty indicated patients for the therapeutic extraction of maxillary first premolars were enlisted in this split-mouth study, and they were randomly split into two equal groups, each including 15 subjects. In the Single Application Group (SAG), one side of the maxillary arch arbitrarily received a single piezocision before the onset of canine retraction, whereas in the Multiple Application Group (MAG), piezocisions were randomly performed on one side, three times on a monthly basis, over the 12-week study period. The contralateral sides of both groups served as the controls. Canine retraction was carried out bilaterally using nickel-titanium closed-coil springs, delivering 150 g of force, and the rate of tooth movement, as well as canine tipping were evaluated on a monthly basis, over a 3-month period. Cone-bean computed tomography scans were also conducted pre- and post- canine retraction, and OIIRR was assessed using Malmgren Index., Results: The reported outcomes revealed a significant increase in the amount of canine retraction, canine tipping, as well as root resorption scores on the experimental sides in both groups SAG and MAG post-retraction (p < 0.001). However, upon comparing the experimental sides in both groups, non-significant differences have been observed between them regarding all the assessed outcomes (p > 0.05)., Conclusions: Single and multiple piezocisions effectively accelerate OTM in comparison to conventional orthodontic treatment, with relative outcomes reported by both intervention frequencies. Accordingly, single piezocision is recommended as an adjunct to OTM. Furthermore, significant tooth tipping as well as a significantly higher root resorption risk accompanies both single and multiple piezocision applications in conjunction with OTM., Name of the Registry: Clinicaltrials.gov TRIAL REGISTRATION NUMBER: NCT05782088 DATE OF REGISTRATION: 23/03/2023 "Retrospectively registered". URL: https://clinicaltrials.gov/ct2/show/NCT05782088., (© 2024. The Author(s).)

Published

2024

26. Uprighting a mesially impacted mandibular second molar with scissor bite using simple tubes.

Author

Kang SG, Lim SH, Kim HM, Park SJ, Kim EJ, and Park JH

Subjects

Humans, Male, Young Adult, Orthodontic Appliance Design, Titanium, Dental Alloys, Composite Resins, Molar, Mandible, Tooth Movement Techniques instrumentation, Tooth Movement Techniques methods, Tooth, Impacted therapy, Orthodontic Wires, Nickel

Abstract

Orthodontic uprighting or traction of an impacted mandibular second molar often necessitates invasive interventions. This report aims to illustrate the utilization of nickel-titanium wire segments inserted into small, simple tubes for uprighting mesially impacted mandibular second molars and also for scissor bite correction. The term "simple tube" refers to a tube without a bonding base attached to a tooth surface by covering it with flowable composite resin. Due to the absence of a bonding base, the simple tube is characterized by its diminutive size and minimal profile height, facilitating placement on partially exposed second molars and unconventional positioning to adjust the force geometry. In this case study, mesially-impacted mandibular second molars with scissor bite were uprighted in a 21-year-old male utilizing simple tubes. Simple tubes can be used for molar uprighting and scissor bite correction buccally and lingually., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

27. Effect of laser process parameters on the pores, surface roughness, and hardness of laser selective melting of dental cobalt-chrome alloys.

Author

Sang L, Yan J, Li N, Xin C, Wang Q, and Liu C

Subjects

Porosity, Materials Testing, Cobalt chemistry, Dental Alloys, Lasers, Surface Properties, Hardness, Chromium Alloys

Abstract

Objectives: To address the quality problems caused by high porosity in the preparation of dental cobalt-chrome alloy prosthetics based on selective laser melting (SLM) technology, we investigated the influence mechanism of different forming process parameters on the microstructure and properties of the materials. Moreover, the range of forming process parameters that can effectively reduce defects was precisely defined., Methods: The effects of laser power, scanning speed, and scanning distance on the pore properties, surface roughness, and hardness of dental cobalt-chrome alloy were investigated by adjusting the printing parameters in the process of SLM. Through metallographic analysis, image analysis, and molten pool simulation, the pore formation mechanism was revealed, and the relationship between the porosity and energy density of SLM dental cobalt-chrome alloy was elucidated., Results: When the linear energy density was higher than 0.18 J/mm, the porosity defect easily appeared at the bottom of the molten pool. When the laser energy density was lower than 0.13 J/mm, defects occurred in the gap of the molten pool due to insufficient melting of powder. In particular, when the linear energy density exceeded the threshold of 0.30 J/mm or was below 0.12 J/mm, the porosity increased significantly to more than 1%. In addition, we observed a negative correlation between free surface roughness and energy density and an inverse relationship between macroscopic hardness and porosity., Conclusions: On the basis of the conditions of raw materials and molding equipment used in this study, the key process parameters of SLM of molding parts with porosity lower than 1% were successfully determined. Specifically, these key parameters included the line energy density, which ranged from 0.13 J/mm to 0.30 J/mm, and the scan spacing should be strictly controlled below 90 μm.

Published

2024

28. RESPONSE REACTIONS STUDY OF THE ORAL TISSUES TO THE DENTAL ALLOYS

Author

Adina Oana Armencia, Loredana Liliana Hurjui, Irina Grădinaru, Ion Hurjui, Claudia Cristina Tărniceriu, Mihaela Mitrea, Dana Baciu, Irina Bamboi, and Carina Balcoș

Subjects

dental alloys, response reactions, oral tissue, Dentistry, RK1-715

Abstract

Aim of the study: the study on the allergic, inflammatory and toxic reactions of the dental alloys. Material and method: Oral clinical examination followed the presence of reactions due to some release elements in the oral environment. Morphopathological examination allowed to assess the reactivity of oral tissues who were in direct contact with dental materials. Results: the subjective symptoms incriminated was: metallic taste, burning sensations, decrease in taste sensitivity, etc. association with general status. Objective symptoms was: allergic, inflammatory, and chimico-toxic mechano-iritative reactions. Mophopatologic examen show atrophic aspects of oral mucosa with decrease dimension and papiles brides, or hipertrophic aspect, with inflammatory infiltration in the corion and distrophic lesions with to break off epithelium integrity. Conclusions: metallic restorations may determine unfavorable interactions between alloys and oral adjacent structures with severe clinical implications.

Published

2021

29. Clinical Evaluation of Corrosion Resistance, Ion Release, and Biocompatibility of CoCr Alloy for Metal-Ceramic Restorations Produced by CAD/CAM Technologies

Author

Zlatina Tomova, Angelina Vlahova, Stefan Zlatev, Ilyana Stoeva, Desislav Tomov, Delyana Davcheva, and Viktor Hadzhigaev

Subjects

dental alloys, corrosion, oxidative stress, Dentistry, RK1-715

Abstract

Background. CAD/CAM technologies facilitate using powder CoCr alloys to produce metal-ceramic dental restorations. However, base alloys may induce oxidative stress in the oral cavity due to corrosion and ion release. This study evaluated resistance to corrosion and release of metal ions from 3D printed CoCr dental alloy and their effect on oral oxidative stress. Methods. Metal-ceramic crowns with 3D printed copings from CoCr alloy EOS CobaltChrome SP2 (EOS, Germany) were fabricated for 35 patients. Inductively coupled plasma mass spectrometry (ICP-MS) was used for measuring the concentration of Co and Cr ions in non-stimulated saliva before prosthetic treatment (BPT), at 2 h and 7 days after the dental treatment (APT2, APT7, respectively). Open circuit potentials (Eocp) were evaluated at APT2 and APT7. Estimating oral oxidative stress, measurements of 8-isoprostaglandin F2-alpha were conducted using liquid chromatography-tandem mass spectrometry (LC-MS/MS) at stages BPT, APT2, and APT7. Results. Salivary Co level increased at APT2 and decreased to the initial levels at APT7. No statistical difference was found between the levels of 8-isoPGF2-alpha measured, and between the Eocp measurements at APT2 and APT7. Conclusions. The studied alloy showed stable corrosion resistance and the metal ion release did not induce oral oxidative stress.

Published

2023

30. Comparative study on metal versus zirconium dioxide infrastructure manufacturing in prosthetic rehabilitation in the maxillary frontal zone.

Author

DRAFTA, Sergiu, PERIEANU, Viorel, COSTEA, Radu, EFTENE, Oana, BURLIBASA, Mihai, MANEA, Raluca Maria, CAMINISTEANU, Florentina, CARABELA, Mircea, NEAGOE, Ioana-Cristina, COSTEA, Raluca, BEURAN, Irina Adriana, and MARU, Nicoleta

Subjects

*ZIRCONIUM oxide, *DENTAL metallurgy, *DENTAL technicians, *DENTAL technology, *METALS

Abstract

Prosthetic rehabilitation of the maxillary front teeth is an extremely laborious problem for the dental team, consisting of the dentist and the dental technician. If for the physiognomic component the most recommended materials are the ceramic masses, for the resistance substrate there are several variants. Conventional technologies using dental alloys and modern ones involving the use of zirconium dioxide can be used successfully in performing fixed prosthetic restorations in the maxillary frontal area, both options having both advantages and disadvantages, as we will describe in this material. [ABSTRACT FROM AUTHOR]

Published

2022

31. ESTIMATION OF THE CORROSION PROPERTIES FOR TITANIUM DENTAL ALLOYS PRODUCED BY SLM.

Author

Kosec, Tadeja, Leban, Mirjam Bajt, Ovsenik, Maja, Kurnik, Matej, and Kopač, Igor

Subjects

TITANIUM alloys, ARTIFICIAL saliva, ELECTROCHEMICAL analysis, HARDNESS, POROSITY

Abstract

Copyright of Materials & Technologies / Materiali in Tehnologije is the property of Institute of Metals & Technology and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

32. Research Data from Politehnica University Timisoara Update Understanding of Dental Alloys (Microstructure, Hardness and EIS Evaluation of Ti-15Zr-5Nb Dental Alloy).

Abstract

A recent study conducted by researchers at Politehnica University Timisoara in Romania examined the properties of a dental alloy called Ti-15Zr-5Nb. The alloy was synthesized through high vacuum melting and characterized using various techniques. The study found that Ti-15Zr-5Nb exhibited increased hardness compared to another commonly used alloy, Ti-CP. However, it also showed lower corrosion resistance in aggressive media. These findings suggest that while Ti-15Zr-5Nb has good corrosion properties in simulated oral environments, it may not be as resistant to corrosion as Ti-CP in more aggressive conditions. [Extracted from the article]

Published

2024

33. A MICROSCOPY EVALUATION OF THE PROSTHETIC RESTORATIONS OUTER SURFACES MADE FROM FOUR DENTAL MATERIALS

Author

Andrei Mihai Caracaș, Petre Costin Mărășescu, Ioana Mitruț, Ruxandra Elena Caracaș, Oana Gîngu, Cristiana Marga Luiza Nistor, Daniel Adrian Țârtea, Maria Alexandra Drăghici, and Horia Octavian Manolea

Subjects

prosthetic surfaces, microscopy analysis, dental alloys, dental ceramics, Dentistry, RK1-715

Abstract

The aim of this study was the microscopy evaluation of the outer prosthetic surfaces in the case of four restorative dental materials: two metal alloys, one noble and one non-noble, and two dental ceramics, one based on lithium disilicate, the other based on zirconia. The samples were made as anatomical crowns in dental laboratory using the specific protocol for each analysed material. The general appearance of the occlusal and buccal surfaces is shown at several magnifications and the results are discussed in relation to the data from the literature and their clinical importance. Among the metallic materials, the noble alloys offered more homogeneous images with smaller cavities, while the final layer of glaze offer a glossier surface for the ceramics materials, in which other small particles may be incorporated, depending on the analysed ceramics . The use of an optical microscope for the final evaluation of the prosthetic structure may bring important details leading to an improvement of the obtained prosthetic structures.

Published

2021

34. Cyclic Fatigue Resistance and Surface Roughness of Rotary NiTi Instruments after Simulated Clinical Use in Curved Root Canals – An Atomic Force Microscopy Study

Author

Raksha Bhat, Arjun Kini, Preethesh Shetty, Payalben Kansara, and Bapanaiah Penugonda

Subjects

Endodontics, Microscopy, Atomic Force, Tooth, Dental Alloys, Torque, Dentistry, RK1-715

Abstract

Objective: To examine the cyclic fatigue resistance and surface topography of TruNatomy and ProTaper Gold nickel-titanium rotary files and evaluate the presence of alterations to surface topography following instrumentation in simulated curved canals. Material and Methods: Twenty-four nickel-titanium instruments, twelve each of TN and PTG file systems, were evaluated for cyclic fatigue resistance. The rotary files were rotated in a simulated root canal with standardized diameter, angle of curvature, and radius of curvature in a custom-made cyclic fatigue testing device until the instrument fracture occurred. The time to fracture for each instrument was recorded with a stopwatch; in seconds in each group. Fractured instruments were subjected to atomic force microscopy analysis measuring the average roughness and the root mean square values to investigate surface features of endodontic files. Mean values and standard deviation were calculated. Data were analyzed using the Mann-Whitney U test. Results: Time to fracture was marginally higher in PTG instruments than in the TN file systems. PTG files exhibited higher surface roughness when compared with TN files (p

Published

2022

35. CORROSION ASSESSMENT OF NICKEL - BASE - DENTAL ALLOYS IN RINGER BIOLOGICAL SOLUTION STUDIED BY ELECTROCHEMICAL TECHNIQUES.

Author

BENEA, L., DRAGUS, L., and MOCANU, D.

Subjects

*DENTAL metallurgy, *PHYSIOLOGIC salines, *NICKEL alloys, *CORROSION in alloys, *LINEAR polarization, *NICKEL

Abstract

The aim of this paper was to study the corrosion behavior of Nickel - Base - Dental Alloys in Ringer biological fluid. The Nickel base alloys are widely used for medical purposes, especially for prosthetic works in the field of dentistry. The applied electrochemical methods used for corrosion investigations are Open Circuit Potential, Linear Polarization during time of immersion in order to calculate the polarization resistance and corrosion rate. Potentiodynamic Polarization diagrams was performed to appreciate the passive domain. Ni-Cr Ugirex alloy show a better corrosion resistance in Ringer solution which will be reflected in a longer life of the dental structures made with this alloy as compared to the Ni-Cr Ducinox alloy, which will result in dental structures with a shorter lifespan. The electrochemical studies has shown that the alloy have a corrosion behavior similar to a passivating alloy, displaying an extensive passivity area due to formation of an oxide film. [ABSTRACT FROM AUTHOR]

Published

2022

36. COMPARATIVE EVALUATION OF THE CORROSION RESISTANCE OF SOME CO-CR ALLOYS USED IN METAL-CERAMIC TECHNOLOGY.

Author

Laurențiu, Drăguș, Mihaela, Buciumeanu, Valentin, Amorțilă, Monica, Comăneanu Raluca, Elena, Ungureanu, and Violeta, Hancu

Subjects

DENTAL metallurgy, CORROSION resistance, COBALT nickel alloys, MATERIALS testing, BRIDGES (Dentistry), DENTAL crowns, GOLD alloys

Published

2022

37. Accumulation of Biofilm on Ti–6Al–4V Alloy Fabricated Using Additive Layer Manufacturing

Author

Koike, Mari, Horie, Tetsuro, Mitchell, Richard J., Okabe, Toru, and The Minerals, Metals & Materials Series

Published

2019

38. Adapting Crowns to Existing Prostheses

Author

Field, James, Kilford, Lesley, Wassell, Robert, Wassell, Robert, editor, Nohl, Francis, editor, Steele, Jimmy, editor, and Walls, Angus, editor

Published

2019

39. Mercury Loss From Dental Amalgam Fillings

Author

Thulficar Ghali Hameed Al-Khafaji, Aymen Hameed Orabi Al-Timimi, Ahmed Saadoon Abbas, Mays Ali Azeez Alanz, Saja Jawad Kadhim Murshedi, and Mohammad Khursheed Alam

Subjects

Dental Materials, Dental Alloys, Dental Amalgam, Mercury, Dentistry, RK1-715

Abstract

Objective: To compare the amount of mercury in new and old dental amalgam restorations. Material and Methods: This study analyzed twenty samples of dental amalgam restorations, dividing into two groups. Group 1 consisted of samples of new dental amalgam restoration (n=10) and group 2 consisted of samples of old dental amalgam restoration (5-years old) (n=10). In each group, the mercury involved in the dental amalgam restoration was calculated using the cloud point extraction (CPE) method. The new dental amalgam restorations are taken from the patients' mouth after condensation and analyzed directly after setting. The old dental amalgam restorations are removed from the patients' mouth, after 5 years of use by the patients, and then they are analyzed. The independent-samples t-test was used to analyze the differences (p

Published

2022

40. Torsional Resistance of Two New Heat Treated Nickel Titanium Rotary Instruments: An in Vitro Evaluation

Author

Gianluca Gambarini, Gabriele Miccoli, Dario Di Nardo, Andrea Del Giudice, Alessandro Mazzoni, Marco Seracchiani, and Luca Testarelli

Subjects

Endodontics, Dental Alloys, Torsion, Mechanical, Torque, Dentistry, RK1-715

Abstract

Objective: To evaluate the difference in torsional resistance, angular deflection and fragment length between two new rotary instruments: AF Blue S4 and S-One. These files share all features except cross- sectional design. Material and Methods: A total of 40 new Nickel-Titanium instruments of 25 mm in length were tested in this study and divided in two groups: 20 AF Blue S4, tip 25 and constant 6% taper and 20 AF-Blue S4 tip 25 and constant 6% taper. The torsional test was performed by the use of a torque recording endodontic motor (KaVo, Biberac, Germany). Torque to Fracture (TtF), Angular Deflection (AD) and Fragment Length (FL) was recorded for each instrument. To ensure an immovable block at 3mm of the instrument tip, an auto-polymerizing resin (DuraLay; Reliance Dental Mfg Co, Worth, IL) was used. Each file was rotated clockwise at a speed of 300 rpm until fracture occurred. Results: Group A (AF Blue S4) showed higher TtF and AD than Group B (S-One), and statistical analysis found significant differences between the two instruments (p0.05) between the two instruments. Conclusion: The AF Blue S4 seems to have a higher resistance to torsional stress in vitro. Clinically, the use of AF Blue S4 could be safer in narrow canals.

Published

2022

41. Comparative Evaluation of Adherence of Three Different Species of Oral Microflora on Prosthetic Dental: Vitro Study

Author

Shilpadandekeri and Zunjarrao, Bhupendra

Published

2019

42. Evidence for Reduced Fatigue Resistance of Contemporary Rotary Instruments Exposed to Body Temperature

Author

de Vasconcelos, Rafaela Andrade, Murphy, Sarah, Carvalho, Claudio Antonio Talge, Govindjee, Rajiv G, Govindjee, Sanjay, and Peters, Ove A

Subjects

Biomedical and Clinical Sciences, Dentistry, Analysis of Variance, Body Temperature, Calorimetry, Differential Scanning, Dental Alloys, Equipment Design, Equipment Failure, Humans, Materials Testing, Nickel, Root Canal Preparation, Rotation, Stress, Mechanical, Surface Properties, Temperature, Titanium, Torque, Torsion, Mechanical, Transition Temperature, Body temperature, cyclic fatigue, martensitic transformation

Abstract

IntroductionThe purpose of this study was to evaluate the effect of 2 different temperatures (20°C and 37°C) on the cyclic fatigue life of rotary instruments and correlate the results with martensitic transformation temperatures.MethodsContemporary nickel-titanium rotary instruments (n = 20 each and tip size #25, including Hyflex CM [Coltene, Cuyahoga Falls, OH], TRUShape [Dentsply Tulsa Dental Specialties, Tulsa, OK], Vortex Blue [Dentsply Tulsa Dental Specialties], and ProTaper Universal [Dentsply Tulsa Dental Specialties]) were tested for cyclic fatigue at room temperature (20°C ± 1°C) and at body temperature (37°C ± 1°C). Instruments were rotated until fracture occurred in a simulated canal with an angle curvature of about 60° and a radius curvature of 3 mm; the center of the curvature was 4.5 mm from the instrument tip. The number of cycles to fracture was measured. Phase transformation temperatures for 2 instruments of each brand were analyzed by differential scanning calorimetry. Data were analyzed using the t test and 1-way analysis of variance with the significance level set at 0.05.ResultsFor the tested size and at 20°C, Hyflex CM showed the highest resistance to fracture; no significant difference was found between TRUShape and Vortex Blue, whereas ProTaper Universal showed the lowest resistance to fracture. At 37°C, resistance to fatigue fracture was significantly reduced, up to 85%, for the tested instruments (P

Published

2016

43. Cyclic Fatigue Resistance and Surface Roughness of Rotary NiTi Instruments after Simulated Clinical Use in Curved Root Canals – An Atomic Force Microscopy Study.

Author

Bhat, Raksha, Kini, Arjun, Shetty, Preethesh, Kansara, Payalben, and Penugonda, Bapanaiah

Subjects

CYCLIC fatigue, FATIGUE limit, ATOMIC force microscopy, SURFACE resistance, DENTAL pulp cavities

Abstract

Objective: To examine the cyclic fatigue resistance and surface topography of TruNatomy and ProTaper Gold nickel-titanium rotary files and evaluate the presence of alterations to surface topography following instrumentation in simulated curved canals. Material and Methods: Twenty-four nickel-titanium instruments, twelve each of TN and PTG file systems, were evaluated for cyclic fatigue resistance. The rotary files were rotated in a simulated root canal with standardized diameter, angle of curvature, and radius of curvature in a custom-made cyclic fatigue testing device until the instrument fracture occurred. The time to fracture for each instrument was recorded with a stopwatch; in seconds in each group. Fractured instruments were subjected to atomic force microscopy analysis measuring the average roughness and the root mean square values to investigate surface features of endodontic files. Mean values and standard deviation were calculated. Data were analyzed using the Mann-Whitney U test. Results: Time to fracture was marginally higher in PTG instruments than in the TN file systems. PTG files exhibited higher surface roughness when compared with TN files (p<0.05). Conclusion: TN file system had a higher cyclic fatigue resistance than PTG. Cyclic fatigue causing file breakage did affect the surface topography of the files. PTG files showed a higher surface porosity value than the TN files. [ABSTRACT FROM AUTHOR]

Published

2022

44. Importanţa aliajelor de nouă generaţie în era digitală.

Author

Rondoni, D. T. Daniele

Abstract

Copyright of dentalTarget is the property of dentalTarget and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

45. Electrochemical impedance spectroscopy study of corrosion characteristics of palladium–silver dental alloys.

Author

Sun, Desheng, Frankel, Gerald S., Brantley, William A., Heshmati, Reza H., and Johnston, William M.

Subjects

DENTAL metallurgy, IMPEDANCE spectroscopy, OPEN-circuit voltage, CHARGE transfer, HEAT treatment

Abstract

Electrochemical impedance spectroscopy (EIS) has been used to obtain insight into corrosion processes for three Pd–Ag alloys, and compare their behavior with an Au–Pd alloy. Five specimens of each alloy received clinically‐appropriate simulated porcelain‐firing heat treatment. EIS testing was performed at ambient temperature, using 0.09% NaCl, 0.9% NaCl and Fusayama solutions. EIS data are presented as Bode plots. At the open‐circuit potential (OCP), the data fit a modified Randles equivalent electrical circuit with a constant phase element (CPE), and the charge‐transfer resistance (RCT) and the two CPE parameters (CPE‐T and CPE‐P) were determined. The area‐normalized capacitance of the double layer (Cdl) was also calculated. The EIS data at two relevant elevated potentials in the passive range were also found to fit well a modified Randles equivalent circuit with different values for the charge transfer resistance and CPE parameters. At the OCP no significant effect on RCT was found for the alloys and electrolytes, and both alloy and electrolyte significantly affected CPE‐P. In vitro corrosion was controlled by charge transfer and charge accumulation processes, and the behavior differed at the elevated potentials compared to the OCP. Significant effects were found for alloy, electrolyte, and alloy/electrolyte interaction on Cdl at the OCP. The EIS parameters at elevated potentials indicate that the Pd–Ag alloys should have satisfactory clinical corrosion resistance. The EIS analyses yielded information about in vitro corrosion of these alloys that cannot be obtained from potentiodynamic polarization testing. [ABSTRACT FROM AUTHOR]

Published

2021

46. Ion release from three different dental alloys – effect of dynamic loading and toxicity of released elements

Author

Ketil Hegerstrøm Haugli, Morten Syverud, and Jan Tore Samuelsen

Subjects

dental alloys, corrosion, cytotoxicity, Dentistry, RK1-715

Abstract

Objective The aims of this in vitro study were to assess if dynamic loading increases the metal ion release of selected dental alloys and to evaluate the cytotoxicity of the released metal ions. Materials and methods One Pd–Ag alloy (Aurolite 2B) and two Co–Cr alloys (Wirobond 280 and d.Sign 30) were investigated. Two different corrosion immersion tests were used: a standardized static test (ISO 22674: 2016) and an experimental dynamic test. Both tests involved immersion of the specimens in a lactic acidic solution (pH = 2.3). Inductively coupled plasma mass spectrometry was used to identify and quantify released elements. A human monocyte cell-line (THP-1) was exposed to serially diluted solutions containing the selected metal ions. Cell viability was measured using the methyl-thiazolyl-tetrazolium assay. Results According to the threshold defined in ISO 22674, only low concentrations of released elements were observed for both corrosion tests. No increase in metal ion release from the dynamic test compared with the static test was observed. Of the released elements, only Zn(II) and Co(II) showed a cytotoxic effect on THP-1 cells at 250 µM and higher concentrations. No increased viability loss was observed when adding other released elements to the exposure mixture. Conclusions The tested alloys showed low levels of metal ion release from both static and dynamic corrosion testing. Dynamic loading did not increase the metal ion release compared to the static corrosion test. Concentrations of 250 µM and above of Zn(II) and Co(II) showed a cytotoxic effect on THP-1 cells.

Published

2020

47. Influence of the Commercial Mouthwashes on the Corrosion Behaviour of Dental Alloy

Author

Denise Pupim, Raniel Fernandes Peixoto, Ana Paula Macedo, Regina Guenka Palma-Dibb, Maria da Gloria Chiarello de Mattos, and Rodrigo Galo

Subjects

Dental alloys, electrochemical corrosion, commercial mouthwashes, roughness, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract Dental alloys are widely used in fabrication of removable partial dentures, particularly as a dental framework. The present study aimed at studying the effect of the commercial mouthwashes on the corrosion behavior of the Co−Cr dental casting alloy. Corrosion behavior was investigated in alcohol-free and alcohol-containing mouthwashes added to artificial saliva solutions at room temperature by electrochemical tests recorded the open circuit potential (OCP) and current density, after the surface analysis of the samples was performed. During the early 250s, the OCP values showed significant changes, with the exception of one test group containing alcohol, where potential decreased continuously during the test, which also recorded the highest current density, different from the other groups. It was observed that the presence of alcohol increased the current density and the corrosion process in this alloy and the mouthwashes had more aggressive action in specimens submitted to solutions with alcohol in the composition.

Published

2022

48. Effect of Sprue Design in Nickel-Chromium Cast Crown Margin

Author

Md. Al-Amin Sarkar, Mahbubur Rahman, Mohammad Khursheed Alam, Abu Noman Md. Abdullah, and Mostafa Md. Anisuzzaman

Subjects

Dental Materials, Dental Casting Investment, Dental Alloys, Chromium Alloys, Dentistry, RK1-715

Abstract

Objective: To determine the effect of sprue design on the marginal accuracy of the casting. Material and Methods: It was an experimental in-vitro study. There are forty-four crowns of single sprue group with a forty-four double sprue group that was compared in 6 different locations of the margin. The sections were inspected under a microscope at 50X magnification and took a micrograph. The radius from an actual casting edge to a possibly excellent margin was then documented as marginal discrepancy (d), in μm. The marginal discrepancy was documented for each of the six sections per casting. Thus 264 sections were measured for each group. Data were analysed using (ANOVA) for analysis of variance. For bivariate analyses, Chi-square and Student t test were used. The significance level was set at < 0.05. Results: The marginal discrepancy was greater in the single sprue group of cast crown (43.1 ± 4.74 µm) and in double sprue group of cast crown was less (25.7 ± 4.25 µm). This difference is statistically significant (p

Published

2021

49. Ni-Cr Alloys Assessment for Dental Implants Suitability

Author

Dragos Cristian Achitei, Mădălina Simona Baltatu, Petrică Vizureanu, Andrei Victor Sandu, Marcelin Benchea, and Bogdan Istrate

Subjects

Ni-Cr, properties, cast samples, dental alloys, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The performance of the field and the condition of success in oral implantology today require the review and reevaluation of the means that contribute essentially to ensuring the stability and durability of the implant, starting from the nature of the biomaterial and continuing with the characteristics of the optimally designed biosurface. This paper proposes a comparative analysis of three commercial alloys, VeraBond, Kera N, and VeraSoft, compared to a modified dental alloy, with the aim of improving some mechanical properties. They have been studied structurally and mechanically. The microstructural structure shows that the alloys crystallize in the face-centered cube system, and the cast alloy has a dendritic structure with large grains. XRD diffractograms highlight that alloys exhibit three compounds Cr156.00 Al596.00: 9013031, Ni4.00, and Cr30.00Al48.00. The hardness measurements showed values between 203 HV and 430 HV. As the percentage of silicon increases, the hardness decreases. The modulus of elasticity obtained by the indentation method for the dental alloys was in the range of 46–153 GPa. The results showed that the hardness and elastic modulus of the new alloy was significantly minimized compared to the classical alloys used.

Published

2022

50. Biomechanical Behavior of Narrow Dental Implants Made with Aluminum- and Vanadium-Free Alloys: A Finite Element Analysis

Author

José Manuel Zapata, Eduardo Leal, Renato Hunter, Raphael Freitas de Souza, and Eduardo Borie

Subjects

biomechanics, bone–implant interface, dental alloys, single tooth dental implant, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Titanium (Ti) alloys used for narrow dental implants usually contain aluminum (Al) and vanadium (V) for improved resistance. However, those elements are linked to possible cytotoxic effects. Thus, this study evaluated the biomechanical behavior of narrow dental implants made with Al- and V-free Ti alloys by the finite element method. A virtual model of a partially edentulous maxilla received single implants (diameter: 2.7 and 2.9 mm; length: 10 mm) at the upper lateral incisor area, with respective abutments and porcelain-fused-to-metal crowns. Simulations were performed for each implant diameter and the following eight alloys (and elastic moduli): (1) Ti–6Al–4V (control; 110 GPa), (2) Ti–35Nb–5Sn–6Mo–3Zr (85 GPa), (3) Ti–13Nb–13Zr (77 GPa), (4) Ti–15Zr (113 GPa), (5) Ti–8Fe–5Ta (120 GPa), (6) Ti–26.88Fe–4Ta (175 GPa), (7) TNTZ–2Fe–0.4O (107 GPa), and (8) TNTZ–2Fe–0.7O (109 GPa). The implants received a labially directed total static load of 100 N at a 45° angle relative to their long axis. Parameters for analysis included the maximum and minimum principal stresses for bone, and von Mises equivalent stress for implants and abutments. Ti–26.88Fe–4Ta reaches the lowest maximum (57 MPa) and minimum (125 MPa) principal stress values, whereas Ti–35Nb–5Sn–6Mo–3Zr (183 MPa) and Ti–13Nb–13Zr (191 MPa) models result in the highest principal stresses (the 2.7 mm model surpasses the threshold for bone overload). Implant diameters affect von Mises stresses more than the constituent alloys. It can be concluded that the narrow implants made of the Ti–26.88Fe–4Ta alloy have the most favorable biomechanical behavior, mostly by mitigating stress on peri-implant bone.

Published

2022