Effect from Rotational Speed on Torsional Resistance of the Nickel-titanium Instruments

Jung Hong Ha, Sang Won Kwak, Sung Kyo Kim, Asgeir Sigurdsson, Hyeon Cheol Kim

Research output: Research - peer-reviewArticle

Abstract

Introduction The purpose of this study was to evaluate differences in torsional resistance using up-regulated speed of rotational spindle. Methods Three NiTi rotary instrument systems were selected in this study: K3XF (SybronEndo, Glendora, CA), BLX (B&L Biotech, Ansan, Korea), and OneShape (MicroMega, Besançon, France). The tip size and taper for all files were #25 and 0.06. Experimental groups (n = 10/group) were assigned to 2-, 60-, 350-, and 600-rpm groups by the rotational speed of spindle. Forty new files were used for each test. The file tip of 5-mm length was secured between brass plates. While keeping the file straight, it was rotated clockwise at a constant rotational speed until fracture occurred. The parameters of torsional resistance, torsional load (Ncm), and distortion angle (°) were measured using an AEndoS-k (DMJ System, Busan, Korea), and the toughness until fracture was computed from these data. The 1-way analysis of variance test was used to analyze the torsional resistance at a significance level of 95%. All fractured fragments were observed under a scanning electron microscope to evaluate the topographic features of the fractured surfaces. Results No significant difference in torsional resistance was found among groups when they were compared for ultimate strength at the maximum torque, fracture angle, and toughness. Scanning electron microscopic examination of the fractured cross-sectional surfaces revealed typical features of torsional fractures, concentric abrasion marks, and fibrous dimples from the torsional center. Conclusions Under the conditions of the study, the torsional resistances of the rotary instruments were not affected by the rotational speed.

LanguageEnglish (US)
Pages443-446
Number of pages4
JournalJournal of Endodontics
Volume43
Issue number3
DOIs
StatePublished - Mar 1 2017

Fingerprint

Korea
Electrons
nitinol
Torque
France
Analysis of Variance
brass

Keywords

  • Instrument fracture
  • nickel-titanium rotary file
  • rotational speed
  • test methods
  • torsional resistance

ASJC Scopus subject areas

  • Dentistry(all)

Cite this

Effect from Rotational Speed on Torsional Resistance of the Nickel-titanium Instruments. / Ha, Jung Hong; Kwak, Sang Won; Kim, Sung Kyo; Sigurdsson, Asgeir; Kim, Hyeon Cheol.

In: Journal of Endodontics, Vol. 43, No. 3, 01.03.2017, p. 443-446.

Research output: Research - peer-reviewArticle

Ha, Jung Hong ; Kwak, Sang Won ; Kim, Sung Kyo ; Sigurdsson, Asgeir ; Kim, Hyeon Cheol. / Effect from Rotational Speed on Torsional Resistance of the Nickel-titanium Instruments. In: Journal of Endodontics. 2017 ; Vol. 43, No. 3. pp. 443-446
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N2 - Introduction The purpose of this study was to evaluate differences in torsional resistance using up-regulated speed of rotational spindle. Methods Three NiTi rotary instrument systems were selected in this study: K3XF (SybronEndo, Glendora, CA), BLX (B&L Biotech, Ansan, Korea), and OneShape (MicroMega, Besançon, France). The tip size and taper for all files were #25 and 0.06. Experimental groups (n = 10/group) were assigned to 2-, 60-, 350-, and 600-rpm groups by the rotational speed of spindle. Forty new files were used for each test. The file tip of 5-mm length was secured between brass plates. While keeping the file straight, it was rotated clockwise at a constant rotational speed until fracture occurred. The parameters of torsional resistance, torsional load (Ncm), and distortion angle (°) were measured using an AEndoS-k (DMJ System, Busan, Korea), and the toughness until fracture was computed from these data. The 1-way analysis of variance test was used to analyze the torsional resistance at a significance level of 95%. All fractured fragments were observed under a scanning electron microscope to evaluate the topographic features of the fractured surfaces. Results No significant difference in torsional resistance was found among groups when they were compared for ultimate strength at the maximum torque, fracture angle, and toughness. Scanning electron microscopic examination of the fractured cross-sectional surfaces revealed typical features of torsional fractures, concentric abrasion marks, and fibrous dimples from the torsional center. Conclusions Under the conditions of the study, the torsional resistances of the rotary instruments were not affected by the rotational speed.

AB - Introduction The purpose of this study was to evaluate differences in torsional resistance using up-regulated speed of rotational spindle. Methods Three NiTi rotary instrument systems were selected in this study: K3XF (SybronEndo, Glendora, CA), BLX (B&L Biotech, Ansan, Korea), and OneShape (MicroMega, Besançon, France). The tip size and taper for all files were #25 and 0.06. Experimental groups (n = 10/group) were assigned to 2-, 60-, 350-, and 600-rpm groups by the rotational speed of spindle. Forty new files were used for each test. The file tip of 5-mm length was secured between brass plates. While keeping the file straight, it was rotated clockwise at a constant rotational speed until fracture occurred. The parameters of torsional resistance, torsional load (Ncm), and distortion angle (°) were measured using an AEndoS-k (DMJ System, Busan, Korea), and the toughness until fracture was computed from these data. The 1-way analysis of variance test was used to analyze the torsional resistance at a significance level of 95%. All fractured fragments were observed under a scanning electron microscope to evaluate the topographic features of the fractured surfaces. Results No significant difference in torsional resistance was found among groups when they were compared for ultimate strength at the maximum torque, fracture angle, and toughness. Scanning electron microscopic examination of the fractured cross-sectional surfaces revealed typical features of torsional fractures, concentric abrasion marks, and fibrous dimples from the torsional center. Conclusions Under the conditions of the study, the torsional resistances of the rotary instruments were not affected by the rotational speed.

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