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Classification and cyclic fatigue evaluation of new kinematics for endodontic instruments
Author(s) -
Gambarini Gianluca,
Piasecki Lucila,
Miccoli Gabriele,
Gaimari Gianfranco,
Di Giorgio Roberto,
Di Nardo Dario,
Azim Adham A,
Testarelli Luca
Publication year - 2019
Publication title -
australian endodontic journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.703
H-Index - 34
eISSN - 1747-4477
pISSN - 1329-1947
DOI - 10.1111/aej.12294
Subject(s) - kinematics , cyclic stress , root canal , weibull distribution , orthodontics , rotation (mathematics) , mathematics , materials science , dentistry , radius , physics , medicine , geometry , statistics , composite material , computer science , computer security , classical mechanics
This study evaluated the effect of new motions of the motor TriAuto ZX2 on the cyclic fatigue of endodontic instruments. Vortex Blue 35.06 instruments were divided into four groups ( n = 10) and tested for fatigue in a curved artificial canal (90° and 2 mm radius) using the following motions: continuous rotation (CR), Optimum Torque Reverse (OTR) set at 180° and the Optimum Glide Path (OGP), which was tested at 90° and 240°. The time to fracture (TTF) and the lengths of the fractured fragments were recorded. The mean TTF was significantly different among the groups ( anova , P < 0.05): OGP 90° (213.39 ± 27.45), OTR 180° (121.24 ± 17.03), OGP 240° (45.24 ± 5.61) and CR (8.43 ± 1.27). Weibull analysis confirmed the shortest life expectancy for CR and the longest survival for OGP at 90°. The resistance to fatigue was affected by motions and pre‐set angles. The proprietary movements that are currently available for endodontic instruments were classified according to their kinematics.