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[微型正畸装置形状记忆合金弓丝非线性锁定机构的设计]

[Design of nonlinear locking mechanism for shape memory alloy archwire of miniature orthodontic device].

作者信息

Dai Qingyuan, Ji Li, Hua Jiahao, Liang Zhenyu, Yu Jianwen, Chen Taicong

机构信息

School of Civil Engineering and Transportation, South China University of Technology, Guangzhou 510640, P. R. China.

The First Affiliated Hospital, Sun Yat-sen University, Guangzhou 510080, P. R. China.

出版信息

Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2024 Aug 25;41(4):766-774. doi: 10.7507/1001-5515.202306051.

Abstract

The locking mechanism between bracket and shape memory alloy (SMA) archwire in the newly developed domestic orthodontic device is the key to controlling the precise alignment of the teeth. To meet the demand of locking force in clinical treatment, the tightening torque angle of the locking bolt and the required torque magnitude need to be precisely designed. For this purpose, a design study of the locking mechanism is carried out to analyze the correspondence between the tightening torque angle and the locking force and to determine the effective torque value, which involves complex coupling of contact, material and geometric nonlinear characteristics. Firstly, a simulation analysis based on parametric orthogonal experimental design is carried out to determine the SMA hyperelastic material parameters for the experimental data of SMA archwire with three-point bending. Secondly, a two-stage fine finite-element simulation model for bolt tightening and archwire pulling is established, and the nonlinear analysis is converged through the optimization of key contact parameters. Finally, multiple sets of calibration experiments are carried out for three tightening torsion angles. The comparison results between the design analysis and the calibration experiments show that the deviation between the design analysis and the calibration mean value of the locking force in each case is within 10%, and the design analysis method is valid and reliable. The final tightening torque angle for clinical application is determined to be 10° and the rated torque is 2.8 N∙mm. The key data obtained can be used in the design of clinical protocols and subsequent mechanical optimization of novel orthodontic devices, and the research methodology can provide a valuable reference for force analysis of medical devices containing SMA materials.

摘要

在新研发的国产正畸装置中,托槽与形状记忆合金(SMA)弓丝之间的锁定机制是控制牙齿精确排列的关键。为满足临床治疗中锁定力的需求,需要精确设计锁定螺栓的拧紧扭矩角度和所需的扭矩大小。为此,开展了锁定机制的设计研究,以分析拧紧扭矩角度与锁定力之间的对应关系,并确定有效扭矩值,这涉及接触、材料和几何非线性特性的复杂耦合。首先,基于参数化正交实验设计进行模拟分析,以确定用于三点弯曲SMA弓丝实验数据的SMA超弹性材料参数。其次,建立了螺栓拧紧和弓丝牵拉的两阶段精细有限元模拟模型,并通过关键接触参数的优化使非线性分析收敛。最后,对三个拧紧扭转角度进行了多组校准实验。设计分析与校准实验的比较结果表明,每种情况下设计分析与锁定力校准平均值之间的偏差在10%以内,设计分析方法有效且可靠。确定临床应用的最终拧紧扭矩角度为10°,额定扭矩为2.8N∙mm。所获得的关键数据可用于临床方案设计和新型正畸装置的后续力学优化,研究方法可为含SMA材料的医疗器械力分析提供有价值的参考。

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本文引用的文献

1
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Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2023 Apr 25;40(2):295-302. doi: 10.7507/1001-5515.202210016.
2
[Safety performance of self-expandable NiTi alloy stent].
Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2020 Apr 25;37(2):334-339. doi: 10.7507/1001-5515.201907039.
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Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2020 Feb 25;37(1):87-95. doi: 10.7507/1001-5515.201903019.
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