口腔内热变化对镍钛丝机械性能的影响:体外研究

IF 1 Q3 MEDICINE, GENERAL & INTERNAL
Cureus Pub Date : 2024-10-23 eCollection Date: 2024-10-01 DOI:10.7759/cureus.72207
Odayy S Al-Horini, Mariam Marwan Masaes, Feras Baba, Mohammad Y Hajeer, Soghyia Talib Ibrahim Almulla, Mudar Mohammad Mousa
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引用次数: 0

摘要

背景 镍钛(NiTi)弓丝的优异特性是具有宽激活范围的持续轻力。形状记忆主要受口内热变化的影响。本研究评估了三种不同恒温(即 12°C、37°C 和 50°C)对三种不同 0.016 × 0.022 镍钛弓丝卸载值的影响。方法 使用了三种直径为 0.016 × 0.022 英寸的镍钛弓丝(American Orthodontics®, Sheboygan, Wisconsin, USA)。它们分别是超弹性型(NT3-SE®)、25°C 热激活型(Thermal Ti-D® )和 35°C 热激活型(Thermal Ti-Lite® )。使用传统的三点弯曲试验(万能试验机,Testometric 350M®, Instron)对钢丝的卸载力进行了评估:Testometric 350M®, Instron, Lincoln Close, Rochdale, England)在三种不同的恒温条件下(12°C、37°C 和 50°C)进行评估。结果 所有类型的线材都表现出了热敏感性;在较高温度下,小偏差和大偏差之间的卸载力会有不同程度的增加,而在较低温度下,所有类型线材的残余应变都会增加。受热变化影响最大的类型是热敏 Ti-Lite® ,其次是热敏 Ti-D® ,而超弹性类型 NT3-SE® 的表现与热敏金属丝类似。在低温(12°C)下,所有类型的金属丝都显示出不完整的载荷/挠度曲线,而在卸载点 2、1 和 0.5 毫米处没有测量到任何数值。在常温(37°C)下,NT3-SE® 型和热敏 Ti-D® 的受力水平相似,而前两种类型和热敏 Ti-Lite® 之间存在显著差异。在高温(50°C)下,所有类型的线材都显示出更高的力水平,但线材类型之间的显著差异并不一致。相反,将温度从 37°C 提高到 50°C,NT3-SE® 的受力水平提高了 40% 到 84%,热敏 Ti-D® 提高了 44% 到 64%,热敏 Ti-Lite® 提高了 61% 到 268%。如果比较 3 毫米处 12°C 和 50°C 之间的力水平,NT3-SE® 的力水平增加了 66%,热敏 Ti-D® 增加了 25%,热敏 Ti-Lite® 增加了 109%;如果比较 12°C 和 37°C 之间的力水平,NT3-SE® 的力水平增加了 15% 和 95%,热敏 Ti-D® 增加了 20% 和 88%,热敏 Ti-Lite® 增加了 26% 和 78%。残余应变值在低温下较大,在高温下较小,而在 37°C 和 50°C 之间没有发现明显差异。结论 温度对所有测试镍钛丝的机械性能都有很大影响;超弹性镍钛丝的性能与热敏镍钛丝类似。温度升高会导致更大的卸载力和更小的残余应变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effect of Intraoral Thermal Changes on the Mechanical Behavior of Nickel-Titanium Wires: An In-Vitro Study.

Background The continuous light force with a wide range of activation describes the excellent properties of nickel-titanium (NiTi) archwires. Shape memory is mainly affected by intraoral thermal changes. This study evaluated the effect of three different constant temperatures (i.e., 12°C, 37°C, and 50°C) on the unloading value of three different 0.016 × 0.022 NiTi archwires. Methodology Three types of 0.016 × 0.022-inch diameter NiTi archwires (American Orthodontics®, Sheboygan, Wisconsin, USA) were used. These were the superelastic type (NT3-SE®), the heat-activated type at 25°C (Thermal Ti-D®), and the thermally activated type at 35°C (Thermal Ti-Lite®). The unloading forces of the wires were evaluated using a classic three-point bending test (a universal testing machine: Testometric 350M®, Instron, Lincoln Close, Rochdale, England) under three different constant temperatures (12°C, 37°C, and 50°C). Results All types of wires showed thermal sensitivity; at higher temperatures, the unloading forces increased differentially between small and large deflections, while at lower temperatures, the residual strain increased for all wire types. The most affected type by the thermal changes was thermal Ti-Lite®, followed by thermal Ti-D®, and the superelastic type NT3-SE® showed a behavior similar to thermal wires. At the low temperature (12°C), all wire types showed an incomplete load/deflection curve, whereas no value was measured at unloading points 2, 1, and 0.5 mm. At the normal temperature (37°C), NT3-SE® type and thermal Ti-D® were similar in force level, while significant differences were noted between both previous types and Thermal Ti-Lite®. At the high temperature (50°C), all wire types showed a higher force level, while significant differences between the wire types were inconsistent. In contrast, increasing the temperature from 37°C to 50°C increased the force levels between 40% and 84% for NT3-SE®, between 44% and 64% for the thermal Ti-D®, and between 61% and 268% for the Thermal Ti-Lite®. When comparing the force levels between 12°C and 50°C at 3 mm, the force levels increased by 66% for NT3-SE®, 25% for Thermal Ti-D®, and 109% for thermal Ti-Lite®, while on comparing the forces between 12°C to 37°C, the forces increased between 15% and 95% for NT3-SE®, 20% and 88% for thermal Ti-D®, and 26% and 78% for thermal Ti-Lite®. The value of residual strain was greater at low temperatures and smaller at higher temperatures, while no significant differences were detected between 37°C and 50°C. Conclusions The temperature degree deeply affected the mechanical behavior of all test NiTi wires; the superelastic type behaved similarly to thermal wires. Increasing the temperature degree leads to more unloading forces and less residual strain.

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