Simulation and Experiment Analysis of Driveshaft

Jia Hao Li, Yao-wei Liu, Yang Zhou, Y. Wang, Zhangwei Guo, Bin Shen
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Abstract

A driveshaft is a small spring coil less than 1mm in diameter, composed of several stainless-steel wire filaments. In intervention, the driveshaft is used to transmit force and motion to the inside body through the existing micro channels (such as arteries, veins, and gastrointestinal tract). The performance of the driveshaft determines the efficiency, stability, and accuracy of force and motion transitions, the ability to pass through tortuous microchannels, and the damage to healthy tissues. To determine the influence of fabrication parameters (filament, wire diameter, and outer diameter) on the mechanical properties (such as bending stiffness and natural frequency) of the driveshaft, a simulation was established in ABAQUS to calculate the deformation displacement under 0.0098N and first-order natural frequency. Then, the bending stiffness is calculated. The results show that the bending stiffness and the first-order natural frequency of the driveshaft increase with the increase of the filament number and wire diameter, and with the outer diameter of the driveshaft increases, the bending stiffness increases, while the first-order natural frequency decreases. Finally, the simulation model is verified by measuring the deformation displacement in the experiment. This study provides a methodology for designing and selecting the driveshaft in Interventional therapy.
传动轴的仿真与实验分析
传动轴是一个直径小于1毫米的小弹簧圈,由几根不锈钢丝组成。在干预中,传动轴通过现有的微通道(如动脉、静脉、胃肠道)将力和运动传递到身体内部。传动轴的性能决定了力和运动转换的效率、稳定性和准确性,通过曲折微通道的能力,以及对健康组织的损害。为了确定加工参数(线材、丝径、外径)对传动轴的弯曲刚度和固有频率等力学性能的影响,在ABAQUS中进行了仿真,计算了在0.0098N和一阶固有频率下的变形位移。然后,计算弯曲刚度。结果表明:随着线材数和线材直径的增加,传动轴的弯曲刚度和一阶固有频率增大;随着传动轴外径的增大,弯曲刚度增大,一阶固有频率减小;最后,通过实测变形位移对仿真模型进行验证。本研究为介入治疗中驱动轴的设计和选择提供了一种方法。
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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