牙周韧带粘弹性的分析模型

Sergei M. Bosiakov, Anna A. Koroleva, Sergei V. Rogosin, Vadim V. Silberschmidt
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引用次数: 8

摘要

了解生理条件下牙周膜的粘弹性行为对许多正畸问题都很重要。提出了一种近似不可压缩粘弹性牙周膜的解析模型,该模型采用对称抛物面来描述牙周膜的内外表面。在模型中,假设牙根为刚体,其外表面与韧带内表面结合良好。假设几乎不可压缩的材料是用来制定运动关系的牙周韧带;提出了具有分数指数核的粘弹性本构方程来描述它。导出了韧带点的平移和旋转运动方程,并分析了牙根平移位移的特殊情况。根据牙周膜对牙齿平移响应的实验数据,评估了分数粘弹性函数的材料参数。定义了由牙根的垂直和水平平移引起的韧带静水应力的分布特征。提出的模型通过引入瞬时弹性模量和松弛弹性模量以及分数参数,可以推广已知的粘弹性牙周韧带分析模型。后者使得考虑牙周组织在短期和长期负荷下的不同行为成为可能。所获得的结果可用于确定与最佳应力相对应的正畸牙齿运动所需的载荷,并根据这种运动引起的牙周韧带应力和应变的变化来模拟骨重塑。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Viscoelasticity of periodontal ligament: an analytical model

Understanding of viscoelastic behaviour of a periodontal membrane under physiological conditions is important for many orthodontic problems. A new analytic model of a nearly incompressible viscoelastic periodontal ligament is suggested, employing symmetrical paraboloids to describe its internal and external surfaces.

In the model, a tooth root is assumed to be a rigid body, with perfect bonding between its external surface and an internal surface of the ligament. An assumption of almost incompressible material is used to formulate kinematic relationships for a periodontal ligament; a viscoelastic constitutive equation with a fractional exponential kernel is suggested for its description.

Translational and rotational equations of motion are derived for ligament’s points and special cases of translational displacements of the tooth root are analysed. Material parameters of the fractional viscoelastic function are assessed on the basis of experimental data for response of the periodontal ligament to tooth translation. A character of distribution of hydrostatic stresses in the ligament caused by vertical and horizontal translations of the tooth root is defined.

The proposed model allows generalization of the known analytical models of the viscoelastic periodontal ligament by introduction of instantaneous and relaxed elastic moduli, as well as the fractional parameter. The latter makes it possible to take into account different behaviours of the periodontal tissue under short- and long-term loads. The obtained results can be used to determine loads required for orthodontic tooth movements corresponding to optimal stresses, as well as to simulate bone remodelling on the basis of changes in stresses and strains in the periodontal ligament caused by such movements.

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