刀片几何形状（非平面、平面或混合）和冶金成分对镍钛根管器械力学性能的影响：一项多方法实验室研究。

The impact of blade geometry (nonflat, flat or hybrid) and metallurgical composition on the mechanical performance of NiTi endodontic instruments: A multimethod laboratory study.

作者信息

Silva Emmanuel J N L, Martins Jorge N R, Cardoso Thyago Oliveira, do Rosário Pereira Mylena, Alcalde Murilo Priori, Vieira Victor T L, Baruwa Abayomi O, Fernandes Francisco Manuel Braz, Versiani Marco A

机构信息

School of Dentistry, Grande Rio University (UNIGRANRIO), Rio de Janeiro, Brazil.

Department of Endodontics, Rio de Janeiro State University, Rio de Janeiro, Brazil.

出版信息

Int Endod J. 2025 Aug;58(8):1243-1256. doi: 10.1111/iej.14249. Epub 2025 May 3.

DOI:10.1111/iej.14249

PMID:40317569

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12254529/

Abstract

AIM

To evaluate the influence of blade design (conventional, flat and hybrid) and metallurgical properties on the mechanical performance of nickel-titanium endodontic instruments.

METHODOLOGY

Two hundred and seven NiTi instruments (25 mm in length) with three different blade designs were selected for analysis: conventional (n = 69, CC One Blue, size 25/0.08v), flat (n = 69, Platinum V.EU, size 25/0.06) and hybrid (n = 69, Flash Endo Power, size 25/0.06v). The instruments were evaluated regarding geometric design (scanning electron microscopy), alloy elements composition (energy-dispersive X-ray spectroscopy) and phase transformation temperatures (differential scanning calorimetry). Additionally, their mechanical behaviour was investigated by testing cyclic fatigue resistance, torsional resistance, bending resistance, buckling resistance, cutting efficiency and microhardness. Statistical significance was determined using One-Way anova and Kruskal-Wallis tests (α = 5%).

RESULTS

Platinum V.EU and Flash instruments exhibited design inconsistencies within the same lot, including nonstandard positioning and variations in the length of the flat side. All instruments were composed of a nickel-titanium alloy with equiatomic ratios of nickel and titanium. At 20°C, Flash instruments exhibited a mixed R-phase and austenitic arrangement, transitioning fully to austenitic at 36°C, while CC One Blue and Platinum V.EU displayed a complete R-phase at 20°C and retained a mixed R-phase and austenitic arrangement at 36°C. The CC One Blue exhibited superior performance in time to fracture (156 ± 34 s), maximum torque (1.5 N·cm) and buckling strength (372 ± 31 gf) (p < .0001), while no differences were found in maximum rotation angle (p = .602). In terms of flexibility, the Flash (328 gf) and CC One Blue (341 gf) outperformed the Platinum V.EU (376 gf) (p = .006). Flash (121 gf) and CC One Blue (137 gf) also outperformed Platinum V.EU (253 gf) in terms of cutting efficiency (p < .0001). Conversely, the Platinum V.EU demonstrated significantly higher microhardness (386 ± 45 HVN) compared to CC One Blue and Flash (p = .0340).

CONCLUSIONS

Overall, instruments featuring either flat-side (Platinum V.EU) or hybrid (Flash) active blades demonstrated inferior mechanical performance compared to the conventional nonflat instrument (CC One Blue).

摘要

目的

评估刃部设计（传统型、扁平型和混合型）及冶金性能对镍钛根管器械力学性能的影响。

方法

选取207支长度为25毫米、具有三种不同刃部设计的镍钛器械进行分析：传统型（n = 69，CC One Blue，25/0.08v号）、扁平型（n = 69，Platinum V.EU，25/0.06号）和混合型（n = 69，Flash Endo Power，25/0.06v号）。对器械的几何设计（扫描电子显微镜）、合金元素组成（能量色散X射线光谱）和相变温度（差示扫描量热法）进行评估。此外，通过测试循环疲劳抗力、抗扭强度、抗弯强度、抗屈曲强度、切割效率和显微硬度来研究其力学行为。使用单因素方差分析和Kruskal-Wallis检验确定统计学显著性（α = 5%）。

结果

Platinum V.EU和Flash器械在同一批次内表现出设计不一致，包括定位不标准和扁平侧长度变化。所有器械均由镍钛合金组成，镍和钛的原子比相等。在20°C时，Flash器械呈现R相和奥氏体的混合排列，在36°C时完全转变为奥氏体，而CC One Blue和Platinum V.EU在20°C时呈现完整的R相，在36°C时保留R相和奥氏体的混合排列。CC One Blue在断裂时间（156 ± 34秒）、最大扭矩（1.5 N·cm）和抗屈曲强度（372 ± 31 gf）方面表现优异（p <.0001），而在最大旋转角度方面未发现差异（p =.602）。在柔韧性方面，Flash（328 gf）和CC One Blue（341 gf）优于Platinum V.EU（376 gf）（p =.006）。在切割效率方面，Flash（121 gf）和CC One Blue（137 gf）也优于Platinum V.EU（253 gf）（p <.0001）。相反，Platinum V.EU的显微硬度（386 ± 45 HVN）明显高于CC One Blue和Flash（p =.0340）。