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Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files

One of the most used rotary files in endodontics is NiTi files due to their superelastic properties. This property means that this instrument has extraordinary flexion that can adapt to large angles inside the tooth canals. However, these files lose their superelasticity and fracture during use. The...

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Autores principales: Sánchez, Patricia, Vidi, Benedetta, Mena-Alvarez, Jesús, Gil, Javier, Rico, Cristina, Aragoneses, Juan Manuel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10254520/
https://www.ncbi.nlm.nih.gov/pubmed/37297223
http://dx.doi.org/10.3390/ma16114089
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author Sánchez, Patricia
Vidi, Benedetta
Mena-Alvarez, Jesús
Gil, Javier
Rico, Cristina
Aragoneses, Juan Manuel
author_facet Sánchez, Patricia
Vidi, Benedetta
Mena-Alvarez, Jesús
Gil, Javier
Rico, Cristina
Aragoneses, Juan Manuel
author_sort Sánchez, Patricia
collection PubMed
description One of the most used rotary files in endodontics is NiTi files due to their superelastic properties. This property means that this instrument has extraordinary flexion that can adapt to large angles inside the tooth canals. However, these files lose their superelasticity and fracture during use. The aim of this work is to determine the cause of fracture of the endodontic rotary files. For this purpose, 30 NiTi F6 SkyTaper(®) files (Komet, Germany) were used. Their chemical composition was determined by X-ray microanalysis, and their microstructure was determined by optical microscopy. Successive drillings were carried out with artificial tooth molds at 30, 45, and 70°. These tests were carried out at a temperature of 37 °C with a constant load controlled by a high sensitivity dynamometer of 5.5 N, and every five cycles were lubricated with an aqueous solution of sodium hypochlorite. The cycles to fracture were determined, and the surfaces were observed by scanning electron microscopy. Transformation (austenite to martensite) and retransformation (martensite to austenite) temperatures and enthalpies were determined by Differential Scanning Calorimeter at different endodontic cycles. The results showed an original austenitic phase with a M(s) temperature of 15 °C and A(f) of 7 °C. Both temperatures increase with endodontic cycling, indicating that martensite forms at higher temperatures, and the temperature must be increased with cycling to retransform it to austenite. This fact indicates the stabilization of martensite with cycling, which is confirmed by the decrease in both transformation and retransformation enthalpies. The martensite is stabilized in the structure due to defects and does not retransform. This stabilized martensite has no superelasticity and, therefore, fractures prematurely. It has been possible to observe the stabilized martensite by studying the fractography, observing that the mechanism is by fatigue. The results showed that the files fracture earlier the greater the angle applied (for the tests at 70° at 280 s, at 45° at 385 s, and at 30° at 1200 s). As the angle increases, there is an increase in mechanical stress, and, therefore, the martensite stabilizes at lower cycles. To destabilize the martensite, a heat treatment can be carried out at 500 °C for 20 min, and the files recovers all its superelasticity.
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spelling pubmed-102545202023-06-10 Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files Sánchez, Patricia Vidi, Benedetta Mena-Alvarez, Jesús Gil, Javier Rico, Cristina Aragoneses, Juan Manuel Materials (Basel) Article One of the most used rotary files in endodontics is NiTi files due to their superelastic properties. This property means that this instrument has extraordinary flexion that can adapt to large angles inside the tooth canals. However, these files lose their superelasticity and fracture during use. The aim of this work is to determine the cause of fracture of the endodontic rotary files. For this purpose, 30 NiTi F6 SkyTaper(®) files (Komet, Germany) were used. Their chemical composition was determined by X-ray microanalysis, and their microstructure was determined by optical microscopy. Successive drillings were carried out with artificial tooth molds at 30, 45, and 70°. These tests were carried out at a temperature of 37 °C with a constant load controlled by a high sensitivity dynamometer of 5.5 N, and every five cycles were lubricated with an aqueous solution of sodium hypochlorite. The cycles to fracture were determined, and the surfaces were observed by scanning electron microscopy. Transformation (austenite to martensite) and retransformation (martensite to austenite) temperatures and enthalpies were determined by Differential Scanning Calorimeter at different endodontic cycles. The results showed an original austenitic phase with a M(s) temperature of 15 °C and A(f) of 7 °C. Both temperatures increase with endodontic cycling, indicating that martensite forms at higher temperatures, and the temperature must be increased with cycling to retransform it to austenite. This fact indicates the stabilization of martensite with cycling, which is confirmed by the decrease in both transformation and retransformation enthalpies. The martensite is stabilized in the structure due to defects and does not retransform. This stabilized martensite has no superelasticity and, therefore, fractures prematurely. It has been possible to observe the stabilized martensite by studying the fractography, observing that the mechanism is by fatigue. The results showed that the files fracture earlier the greater the angle applied (for the tests at 70° at 280 s, at 45° at 385 s, and at 30° at 1200 s). As the angle increases, there is an increase in mechanical stress, and, therefore, the martensite stabilizes at lower cycles. To destabilize the martensite, a heat treatment can be carried out at 500 °C for 20 min, and the files recovers all its superelasticity. MDPI 2023-05-31 /pmc/articles/PMC10254520/ /pubmed/37297223 http://dx.doi.org/10.3390/ma16114089 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Sánchez, Patricia
Vidi, Benedetta
Mena-Alvarez, Jesús
Gil, Javier
Rico, Cristina
Aragoneses, Juan Manuel
Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files
title Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files
title_full Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files
title_fullStr Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files
title_full_unstemmed Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files
title_short Effect of Stabilized Martensite on the Long-Term Performance of Superelastic NiTi Endodontic Files
title_sort effect of stabilized martensite on the long-term performance of superelastic niti endodontic files
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10254520/
https://www.ncbi.nlm.nih.gov/pubmed/37297223
http://dx.doi.org/10.3390/ma16114089
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