不同力学性能条件下中耳镫骨位移特性的三维块体模型

IF 0.8 4区工程技术 Q4 ACOUSTICS

International Journal of Acoustics and Vibration Pub Date : 2020-06-30 DOI:10.20855/ijav.2020.25.21543

Y. Hsieh, Doan Minh Hai, Yue-Lin Hsieh

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引用次数: 0

摘要

本文建立了人体听觉外设的三维集总模型，该模型由四个质量体组成，配有五个主要弹簧和主要阻尼器。该模型将为构建人体中耳物理模型提供定量依据。这个三维集总模型由一个人耳骨模型组成，其工作原理与微小的机械结构相似。3D集总模型的参数是使用之前的解剖数据确定的，然后通过参数优化过程构建，使用16个弹簧和阻尼器来代表微小的机械结构的五个连接。计算结果表明，在不同声频下，五种连接方式对镫骨位移的灵敏度优先级不同。此外，本文还详细讨论了五种连接方式的力学性能对镫骨位移大小的影响。由于增加了中耳骨连接关节的刚度，镫骨的振动幅度增大。然而，四个质量值的大小以与镫骨位移相反的方式发生反应。本文还讨论了质量系统和连接器系统话音特性的特定频率范围。在不同频率范围内，还给出了个体质量或关节活动对镫骨位移的详细信息。利用ANSYS workbench 15.0、Solid works 2017和MATLAB R2015a对模型的行为进行了计算。本研究结果可为相关医学研究提供参考。

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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A Three-Dimensional Lump Model on Performances of the Stapes Displacement under Different Mechanics Property Conditions of a Middle Ear

In this article, a three-dimensional (3D) lumped model of the human auditoria peripherals that consisted of four masses equipped with five major springs and major dashpots is presented. This model will support the quantitative basis for construction of a human middle ear physical model. This 3D lumped model consists of a human ear bone model having a similar working principle as the tiny mechanical structure. The 3D lumped model’s parameters were identified using previous anatomical data, and then constructed via a parameter optimizing process using 16 springs and dashpots that represent the tiny mechanical structure’s five connections. The computational results showed the sensitivity priority of the five connections to the stapes displacement with a variety of sound frequencies. Moreover, a detailed discussion of the five connections’ mechanical properties affecting the magnitude of the stapes displacement was also shown in this paper. As a result of increasing the stiffness in the joint of the middle ear bone connection, the stapes’ vibrational amplitude was increased. However, the magnitude of the value of the four masses reacts in a manner that is opposite to stapes displacement. Some specific frequency ranges of the voice properties to the mass and connector systems are also discussed in this paper. The details of the individual mass or joint activity to the stapes displacement at various frequency ranges are also presented. The model’s behaviors were calculated using the software ANSYS workbench 15.0, Solid works 2017, and the MATLAB R2015a. Our findings provide a relevant reference for related medical research.

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来源期刊

International Journal of Acoustics and Vibration ACOUSTICS-ENGINEERING, MECHANICAL

CiteScore

1.60

自引率

10.00%

发文量

审稿时长

12 months

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