正畸钢丝扭矩特性的实验分析

Experimental analysis of torque characteristics of orthodontic wires.

作者信息

Partowi Samira, Keilig Ludger, Reimann Susanne, Jäger Andreas, Bourauel Christoph

机构信息

Endowed Chair of Oral Technology, Department of Dental Prosthetics, University of Bonn, Bonn, Germany.

出版信息

J Orofac Orthop. 2010 Sep;71(5):362-72. doi: 10.1007/s00056-010-1028-2. Epub 2010 Oct 21.

DOI:10.1007/s00056-010-1028-2

PMID:20963545

Abstract

BACKGROUND AND OBJECTIVE

A major requirement for orthodontic wires is superior elasticity. The question arises whether today's nickel titanium wires display a distinctively superelastic plateau also under torsional loading, and whether typical torsion angles are sufficient to produce adequate torquing moments with superelastic wires. The objective of this study was to compare various nickel titanium and steel wires in a pure torsion experiment.

MATERIAL AND METHODS

To experimentally examine the torque characteristic of orthodontic wires, we used nickel titanium wires manufactured by Dentaurum (Tensic®) and ODS (Euro Arch NiTi) measuring 0.40 × 0.40 mm2, 0.40 × 0.56 mm2, 0.43 × 0.64 mm2, 0.46 × 0.64 mm2, 0.48 × 0.64 mm2, 0.51 × 0.51 mm2, and steel wires made by Dentaurum (remanium®), 3M Unitek (HI-T™ II Stainless Steel) measuring 0.40 × 0.40 mm2, 0.40 × 0.56 mm2, 0.43 × 0.56 mm2, 0.43 × 0.64 mm2, 0.46 × 0.64 mm2, 0.48 × 0.64 mm2, 0.51 × 0.51 mm2. Torque was measured at an ambient temperature of 37 ° C for the nickel titanium wires. The distance between the bearing points was 10 mm for all measurements. The steel wires' torquing moments were determined at a torsion angle of 20 °, the torquing moments of the nickel titanium wires were investigated on the plateau, and we compared the results of the means and the standard deviations of all wires. Starting and end points of the loading and unloading plateau were determined for all nickel titanium wires.

RESULTS

The torquing moment/torsion angle diagrams of the nickel titanium wires by different manufacturers displayed the curves typical of superelastic wires. The torquing moments of the wires with a smaller cross-section yielded values below 5 Nmm and thus appear obviously too small (e.g. Dentaurum Tensic®, 0.40 × 0.40 mm2: 1.3 Nmm). The mean values of the loading plateau's starting point yielded values of about 20 °.

CONCLUSIONS

As the torsional play in the bracket slot of the wires with a smaller cross-section is typically about 10 °, we doubt whether these wires reach the superelastic plateau. Moreover, we observed production-associated variations in the material properties of various nickel titanium wires. It is thus difficult for the practitioner to draw a correlation between a wire's crosssection and the actual torquing moment delivered.

摘要

背景与目的

正畸弓丝的一个主要要求是具有卓越的弹性。由此产生的问题是，当今的镍钛弓丝在扭转载荷下是否也呈现出明显的超弹性平台，以及典型的扭转角度是否足以利用超弹性弓丝产生足够的扭矩。本研究的目的是在纯扭转实验中比较各种镍钛弓丝和钢丝。

材料与方法

为了通过实验研究正畸弓丝的扭矩特性，我们使用了Dentaurum公司生产的（Tensic®）和ODS公司生产的（Euro Arch NiTi）镍钛弓丝，尺寸分别为0.40×0.40mm²、0.40×0.56mm²、0.43×0.64mm²、0.46×0.64mm²、0.48×0.64mm²、0.51×0.51mm²，以及Dentaurum公司生产的（remanium®）、3M Unitek公司生产的（HI-T™ II不锈钢）钢丝，尺寸分别为0.40×0.40mm²、0.40×0.56mm²、0.43×0.56mm²、0.43×0.64mm²、0.46×0.64mm²、0.48×0.64mm²、0.51×0.51mm²。对于镍钛弓丝，在37°C的环境温度下测量扭矩。所有测量的支承点之间的距离为10mm。在20°的扭转角度下测定钢丝的扭矩，在平台上研究镍钛弓丝的扭矩，然后我们比较所有弓丝的平均值和标准差的结果。确定所有镍钛弓丝加载和卸载平台的起点和终点。