用于制造旋转根管器械的控释记忆和超弹性镍钛丝的力学性能。

Mechanical properties of controlled memory and superelastic nickel-titanium wires used in the manufacture of rotary endodontic instruments.

机构信息

Center for Biomedical Materials and Engineering, College of Material Science and Chemical Engineering, Harbin Engineering University, Harbin, China.

出版信息

J Endod. 2012 Nov;38(11):1535-40. doi: 10.1016/j.joen.2012.07.006. Epub 2012 Sep 10.

DOI:10.1016/j.joen.2012.07.006

PMID:23063231

Abstract

INTRODUCTION

The aim of this study was to investigate the structure and mechanical properties of newly developed controlled memory (CM) nickel-titanium wires used in the manufacture of rotary endodontic instruments.

METHODS

The composition and the phase transformation behavior of both types of wires were examined by x-ray energy dispersive spectroscopy and differential scanning calorimetry, respectively. Conventional superelastic (SE) nickel-titanium wire was used as a control. The mechanical properties of the wires at selected temperatures (room temperature, 37°C, and 60°C) were evaluated with tensile, cyclic tensile, and cantilever bending tests by using an Instron 3365 universal testing machine. The data of austenitic transformation finishing temperature (A(f)) were analyzed statistically by using 1-way analysis of variance test at a significance level of P < .05.

RESULTS

The raw CM wires contained a nickel content of 50.7% ± 0.5% and possessed a relatively higher A(f) than SE wires (P < .05). The critical plateau stress and ultimate tensile strength of the CM wires were lower than they were for the SE wires, but the maximum strain before fracture of the CM wires (58.4% ± 7.5% to 84.7% ± 6.8%) was more than 3 times higher than it was for SE wires (16.7% ± 3.8% to 27.5% ± 5.4%). The maximum strain of the CM wires with a diameter of 1.22 mm tested at room temperature (23°C ± 2°C) was up to 84% ± 6.4%. CM wires were not SE at either room temperature or 37°C; however, they exhibited superelasticity when heated to 60°C.

CONCLUSIONS

The raw CM wires exhibited different phase transformation behavior and mechanical properties when compared with SE wires, attributing to the special heat treatment history of CM wires. This study suggested greater flexibility of endodontic instruments manufactured with CM wires than similar instruments made of conventional SE wires.

摘要

简介

本研究旨在探讨新型控释记忆（CM）镍钛丝的结构和力学性能，该材料用于制造旋转根管器械。

方法

采用能谱仪和差示扫描量热法分别对两种线材的成分和相变行为进行检测。以常规超弹性（SE）镍钛丝为对照。采用万能试验机对室温（23°C ± 2°C）、37°C 和 60°C 下的线材进行拉伸、循环拉伸和悬臂弯曲试验，评估线材的力学性能。采用单因素方差分析对奥氏体相变完成温度（A(f)）数据进行统计学分析，检验水准α=0.05。

结果

原始 CM 线材的镍含量为 50.7% ± 0.5%，A(f)值高于 SE 线材（P <.05）。CM 线材的临界平台应力和极限拉伸强度均低于 SE 线材，但 CM 线材断裂前的最大应变（58.4% ± 7.5%至 84.7% ± 6.8%）高于 SE 线材（16.7% ± 3.8%至 27.5% ± 5.4%）的 3 倍以上。室温（23°C ± 2°C）下直径为 1.22mm 的 CM 线材的最大应变为 84% ± 6.4%。CM 线材在室温或 37°C 时均不具有超弹性，但加热至 60°C 时表现出超弹性。

结论

与 SE 线材相比，原始 CM 线材具有不同的相变行为和力学性能，这归因于 CM 线材特殊的热处理历史。本研究表明，与传统 SE 线材制造的类似器械相比，CM 线材制造的根管器械具有更大的灵活性。

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用于制造旋转根管器械的控释记忆和超弹性镍钛丝的力学性能。

Mechanical properties of controlled memory and superelastic nickel-titanium wires used in the manufacture of rotary endodontic instruments.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

简介

方法

结果

结论

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