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Journal of Materials Engineering and Performance

Erschienen in:

01.08.2009

Numerical Study on the Influence of Material Characteristics on Ni-Ti Endodontic Instrument Performance

verfasst von: Lorenza Petrini, Silvia Necchi, Silvio Taschieri, Francesco Migliavacca

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 5-6/2009

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Abstract

Ni-Ti rotary endodontic instruments (files) are used in dentistry during the endodontic treatment to shape the root canal of the tooth while removing the pulp when infected. Up to now, the studies for evaluating their performances and drawbacks were mainly limited to experimental tests on product flexural and torsional resistance. This work exploits computational analyses for investigating the effects of materials with different mechanical properties on the behavior of rotary endodontic instruments. The aim is to understand the appropriate material choice to reduce the criticality of the treatment in particular clinical conditions. In particular, the interaction between an accurately modeled rotating file and differently shaped root canals during the clinical procedure was studied performing finite element analyses. Strains induced by the treatment on a file made of a “standard” Ni-Ti alloy (characterized by average properties of the pseudoelastic behavior), a “long” Ni-Ti alloy (characterized by wide transformation region), a “super” Ni-Ti alloy (characterized by an extended Hookian behavior without transformation region), and stainless steel were compared. The results accurately show the advantages of the use of Ni-Ti alloy with respect to stainless steel and the better performance of the “long” alloy in all the tested case.

Vorheriger Artikel Implementation of the Müller-Achenbach-Seelecke Model for Shape Memory Alloys in ABAQUS

Nächster Artikel Conceptual Design and Simulation of a Compact Shape Memory Actuator for Rotary Motion

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M. Hülsmann, O.A. Peters, P.M.H. Dummer, Mechanical Preparation of Root Canals: Shaping Goals, Techniques and Means. Endod. Top., 2005, 10, p 30–76.CrossRef

S. Taschieri, S. Necchi S, G. Rosano, M. Del Fabbro, R. Weinstein, P. Machtou, Avantages et limites des instruments en nickel-titane pour la préparation canalaire endodontique. Revue de la littérature récente (Advantages and limits of nickel-titanium instruments for root canal preparation. A review of the current literature), Schweiz. Monatsschr. Zahnmed., 2005, 115, p 1000–5, in French.

M.G. Bahia, M.C. Melo, V.T. Buono, Influence of Cyclic Torsional Loading on the Fatigue Resistance of K3 Instruments. J. Endod., 2008, 41, p 883–91.CrossRef

E. Berutti, G. Chiandussi, I. Gaviglio, A. Ibba, Comparative Analysis of Torsional and Bending Stresses in Two Mathematical Models of Nickel-Titanium Rotary Instruments: ProTaper Versus ProFile. J. Endod., 2003, 29, p 15– 9.CrossRef

X. Xu and Y. Zheng, Comparative Study of Torsional and Bending Properties for Six Models of Nickel-Titanium Root Canal Instruments with Different Cross-Sections. J. Endod. 2006, 32, p 372–5.CrossRef

S. Necchi, S. Taschieri, L. Petrini, F. Migliavacca, Mechanical Behaviour of Ni-Ti Rotary Endodontic Files in Simulated Clinical Conditions: A Computational Study. Int. Endod. J., 2008, 41, p 939–49.CrossRef

J.P. Pruett, D.J Clement, D.L. Carnes, Cyclic Fatigue Testing of Nickel Titanium Endodontic Instruments, J. Endod., 1997, 23, p 77–85.CrossRef

G.R. Zadno and T.W. Duerig, Linear and Non-Linear Superelasticity in NiTi, MRS Shape Memory Mater., 1989, 9, p 201–206. Also available on www.nitinol.com.

F. Auricchio, L. Petrini, A Three-Dimensional Model Describing Stress-Temperature Induced Solid Phase Transformations: Solution Algorithm and Boundary Value Problems, Int. J. Numer. Methods Eng., 2004, 61, p 716–737.CrossRef

10.

F. Auricchio, M. Di Loreto, E. Sacco, Finite-Element Analysis of a Stenotic Artery Revascularization Through a Stent Insertion, Comput. Methods Biomech. Biomed. Eng., 2001, 4, p 249–263.CrossRef

11.

Y. Haikel, R. Serfaty, G. Bateman, B. Senger, C. Allemann, Dynamic and Cyclic Fatigue of Engine-Driven Rotary Nickel-Titanium Endodontic Instruments. J. Endod., 1999, 25, p 434-40.CrossRef

12.

G. Zelada, P. Varela, B. Martín, J.G. Bahíllo, F. Magán, S. Ahn, The Effect of Rotational Speed and the Curvature of Root Canals on the Breakage of Rotary Endodontic Instruments. J. Endod., 2002, 28, p 540-2.CrossRef

13.

U.M. Li, B.S. Lee, C.T. Shih, W.H. Lan, C.P. Lin, Cyclic Fatigue of Endodontic Nickel Titanium Rotary Instruments: Static and Dynamic Tests. J. Endod., 2002, 28, p 448-51.CrossRef

14.

B. Martín, G. Zelada, P. Varela, J.G. Bahíllo, F. Magán, S. Ahn, C.Rodríguez, Factors Influencing the Fracture of Nickel-Titanium Rotary Instruments. J. Endod., 2003, 36, p 262–6.CrossRef

15.

H.P. Lopes, E.J. Moreira, C.N. Elias, R.A. de Almeida, M.S. Neves, Cyclic Fatigue of ProTaper Instruments. J. Endod., 2007, 33, p 55–7.CrossRef

16.

C.J. Ullmann, O.A. Peters, Effect of Cyclic Fatigue on Static Fracture Loads in ProTaper Nickel-Titanium Rotary Instruments. J. Endod., 2005, 31, p 183–6.CrossRef

17.

M.G. Bahia, M.C. Melo, V.T. Buono, Influence of Simulated Clinical Use on the Torsional Behavior of Nickel-Titanium Rotary Endodontic Instruments. Oral Surg. Oral Med. Oral Pathol. Oral Radiol. Endod., 2006, 101, p 675–80.CrossRef

18.

F.O.G. Barbosa, J.A.C. Ponciano, M.C.P. Araújo, Influence of Previous Angular Deformation on Flexural Fatigue Resistance of K3 Nickel–Titanium Rotary Instruments. J. Endod., 2007, 33, p 1477–80.CrossRef

19.

B. Sattapan, J.E. Palamara, H.H. Messer, Torque During Canal Instrumentation Using Rotary Nickel-Titanium Files. J. Endod., 2000, 26, p 156–60.CrossRef

20.

D. Fife, G. Gambarini, L.R. Britto, Cyclic Fatigue Testing of ProTaper NiTi Rotary Instruments After Clinical Use. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 2004, 97, 251–6.CrossRef

21.

G. Yared, In Vitro Study of the Torsional Properties of New and Used ProFile Nickel Titanium Rotary Files. J. Endod., 2004, 30, p 410–2.CrossRef

22.

M.G. Bahia, V.T. Buono, Decrease in the Fatigue Resistance of Nickel-Titanium Rotary Instruments After Clinical Use in Curved Root Canals. Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 2005, 100, p 249–55.CrossRef

23.

N.M. Grande, G. Plotino, R. Pecci, R. Bedini, V.A. Malagnino, F. Somma, Cyclic Fatigue Resistance and Three-Dimensional Analysis of Instruments from Two Nickel–Titanium Rotary Systems. Int. Endod. J., 2006, 39, p 755–63.CrossRef

24.

G.S.P. Cheung, B.W. Darvell, Fatigue Testing of a NiTi Rotary Instrument. Part 1: Strain-Life Relationship. Int. Endod. J., 2007, 40, p 626–32.CrossRef

25.

S.B. Alapati, W.A. Brantley, T.A. Svec, J.M. Powers, J.M. Nusstein, G.S. Daehn, SEM Observations of Nickel-Titanium Rotary Endodontic Instruments that Fractured During Clinical Use. J. Endod., 2005, 31, p 40–3.CrossRef

26.

A.P. Spanaki-Voreadi, N.P. Kerezoudis, S. Zinelis, Failure Mechanism of ProTaper Ni-Ti Rotary Instruments During Clinical Use: Fractographic Analysis. Int. Endod. J., 2006, 39, p 171–8.CrossRef

Titel: Numerical Study on the Influence of Material Characteristics on Ni-Ti Endodontic Instrument Performance
verfasst von: Lorenza Petrini
Silvia Necchi
Silvio Taschieri
Francesco Migliavacca
Publikationsdatum: 01.08.2009
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 5-6/2009
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-009-9395-9

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