[电火花加工镍钛根管器械的表面微观结构与循环疲劳抗力]
[Surface microstructure and cyclic fatigue resistance of electro discharged machining nickel-titanium endodontic instrument].
作者信息
Wang F F, Yang Y J, Hou X M
机构信息
Second Clinical Division, Peking University School and Hospital of Stomatology & National Clinical Research Center for Oral Diseases & National Engineering Laboratory for Digital and Material Technology of Stomatology & Beijing Key Laboratory of Digital Stomatology, Beijing 100101, China; Department of Stomatology, Xuanwu Hospital, Capital Medical University, Beijing 100053, China.
Department of Stomatology, Beijing Xicheng District Xinjiekou Community Health Service Center, Beijing 100035, China.
出版信息
Beijing Da Xue Xue Bao Yi Xue Ban. 2018 Oct 18;50(5):876-881.
OBJECTIVE
To compare the surface microstructures and cyclic fatigue resistance of HyFlex EDM with HyFlex CM and HyFlex NT.
METHODS
Twelve 25 mm-long 25#/- HyFlex EDM and twelve 25 mm-long 25#/0.06 taper HyFlex CM or HyFlex NT were selected. The surface microstructure of the 2 instruments which were randomly selected from each group was observed by using scanning electron microscope (SEM). The remaining 10 instruments from each group were submitted to the cyclic fatigue test by using a simulated stainless steel root canal with 60° angle of curvature and curvature radius of 3.5 mm. The time till fracture was recorded, the number of cyclic fatigue (NCF) was calculated, the length of fracture fragment was evaluated, and the topographic features were analyzed by using SEM. The data were analyzed by using one-way analysis via SPSS 23.0 software. The statistical significance level was set at 0.05.
RESULTS
SEM observation of the surface and microstructural characterization revealed peculiar melting appearance and evenly distributed micropores on the surface of HyFlex EDM while observations of the surface of both HyFlex CM and HyFlex NT demonstrated machining grooves and irregularities. The NCF of HyFlex EDM was 838±223, which was significantly higher than not only that of HyFlex CM (582±99), but also that of HyFlex NT (81±20) (P<0.05), and the difference between the latter two groups was significant, as well (P<0.05). The length of fractured fragments of HyFlex EDM was (7.27±0.28) mm, which was significantly longer than the HyFlex CM and HyFlex NT, with values of (6.72±0.26) mm and (6.62±0.37) mm, respectively (P<0.05). Topographic features demonstrated typical cyclic fatigue for all the three groups while the region of crack origins was more for HyFlex EDM and HyFlex CM than that of HyFlex NT. As far as the dimple area was concerned, that of HyFlex EDM was deeper and larger than that of HyFlex CM and HyFlex NT.
CONCLUSION
Within the limitations of this study, electro-discharge machining leads to peculiar melting appearance with micropores instead of machining grooves and irregularities on the surface of HyFlex EDM, which may be the reason why HyFlex EDM exhibits significantly better cyclicfatigue resistance than HyFlex CM and HyFlex NT.
目的
比较HyFlex EDM与HyFlex CM和HyFlex NT的表面微观结构及循环疲劳抗力。
方法
选取12根25 mm长的25#/- HyFlex EDM以及12根25 mm长的25#/0.06锥度HyFlex CM或HyFlex NT。从每组中随机选取2支器械,用扫描电子显微镜(SEM)观察其表面微观结构。每组剩余的10支器械在模拟的60°曲率角和3.5 mm曲率半径的不锈钢根管中进行循环疲劳测试。记录直至断裂的时间,计算循环疲劳次数(NCF),评估断裂碎片的长度,并通过SEM分析形貌特征。数据采用SPSS 23.0软件进行单因素分析。统计学显著性水平设定为0.05。
结果
SEM对表面和微观结构特征的观察显示,HyFlex EDM表面有独特的熔化外观和均匀分布的微孔,而HyFlex CM和HyFlex NT两者的表面观察显示有加工痕迹和不规则之处。HyFlex EDM的NCF为838±223,不仅显著高于HyFlex CM(582±99),也显著高于HyFlex NT(81±20)(P<0.05),后两组之间的差异也具有显著性(P<0.05)。HyFlex EDM断裂碎片的长度为(7.27±0.28)mm,显著长于HyFlex CM和HyFlex NT,其值分别为(6.72±0.26)mm和(6.62±0.37)mm(P<0.05)。形貌特征显示所有三组均有典型的循环疲劳,而HyFlex EDM和HyFlex CM的裂纹起源区域比HyFlex NT更多。就凹坑面积而言,HyFlex EDM的比HyFlex CM和HyFlex NT更深、更大。
结论
在本研究的局限性范围内,放电加工导致HyFlex EDM表面出现带有微孔的独特熔化外观,而非加工痕迹和不规则之处,这可能是HyFlex EDM比HyFlex CM和HyFlex NT表现出显著更好的循环疲劳抗力的原因。
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