Identification of a longitudinal notch of a rod by natural vibration frequencies

I. Utyashev, A. F. Fatkhelislamov
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Abstract

Objectives. To study the direct and inverse problem of vibrations of a rectangular rod having a longitudinal notch, to analyze regularities of the behavior of natural frequencies and natural forms of longitudinal vibrations when changing the location and size of the notch, and to develop a method for uniquely identifying the parameters of the longitudinal notch using the natural frequencies of longitudinal vibrations of the rod.Methods. The rod with a longitudinal notch is modeled as two rods, where the first one does not have a notch, while the second one does. For connection, conjugation conditions are used, in which longitudinal vibrations and deformations are equated. The solution of the inverse problem is based on the construction of a frequency equation under the assumption that the desired parameters are included in the equation. Substituting natural frequencies into this equation, the nonlinear system with respect to unknown parameters is derived. The solution of the latter is the desired notch parameters.Results. Tables of eigenfrequencies and graphs of eigenforms are given for different notch parameters. The results for different boundary conditions are obtained and analyzed. A method for identifying notch parameters by a finite number of eigenfrequencies is presented. The inverse problem is shown to have two solutions, which are symmetrical about the center of the rod. The unambiguous solution requires eigenfrequencies of the same problem with different boundary conditions at the right end. By adding additional conditions at the ends of the rod, the inverse problem can be solved with new boundary conditions to construct the exact solution and develop an algorithm for checking the uniqueness of the solution.Conclusions. The developed method can be used to solve the problem of identification of geometric parameters of various parts and structures modeled by rods.
用固有振动频率来识别杆的纵向缺口
目标。研究具有纵向缺口的矩形杆的振动正反问题,分析改变缺口位置和尺寸时纵向振动固有频率和固有形式的变化规律,并建立利用杆的纵向振动固有频率唯一识别纵向缺口参数的方法。具有纵向缺口的杆被建模为两根杆,其中第一根没有缺口,而第二根有。对于连接,使用共轭条件,其中纵向振动和变形是相等的。反问题的解是在假设所需参数包含在方程中的前提下,建立频率方程。将固有频率代入方程,导出了含未知参数的非线性系统。后者的解就是所需的陷波参数。给出了不同陷波参数的特征频率表和特征形式图。对不同边界条件下的结果进行了分析。提出了一种用有限个数的特征频率识别陷波参数的方法。反问题有两个解,它们围绕杆的中心对称。无二义解要求同一问题的特征频率在右端具有不同的边界条件。通过在杆端增加附加条件,可以用新的边界条件求解逆问题,从而构造出精确解,并发展出一种检验解唯一性的算法。所提出的方法可用于求解用杆建模的各种零件和结构的几何参数识别问题。
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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