裂纹jeffcott转子模型临界转速的实验与有限元研究

Q3 Physics and Astronomy

Noise and Vibration Worldwide Pub Date : 2023-09-15 DOI:10.1177/09574565231203259

Kedar Kishor Patil, Dr. Sanjay Hari Sawant

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引用次数: 1

摘要

泵、压缩机、发电机、蒸汽轮机和燃气轮机等旋转机械在工业4.0中得到广泛应用。研究人员通过有限元方法对破裂的Jeffcott转子系统进行建模，从而获得了更多的关注。本文对考虑不同裂纹深度、裂纹位置和轴材料的Jeffcott转子模型进行了理论分析和有限元分析。有限元结果和FFT分析的实验验证表明，裂纹深度的增加降低了系统的第一临界速度。此外，裂缝数量的增加会导致系统第一临界速度的降低。裂纹的存在改变了轴的刚度，导致固有频率降低。本研究方法为振动状态监测社区提供了一个改进的裂纹诊断信息平台，可以有效地将Ansys软件用作工业4.0中进行转子动力学分析的有限元工具。

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An experimental and finite element investigation for determining critical speeds of a cracked jeffcott rotor model

Rotating machines like pumps, compressors, generators, and steam and gas turbines are widely used in Industry 4.0. The researchers have gained more attention by modeling a cracked Jeffcott rotor system through a finite element approach. The present work consists of theoretical and finite element analysis of the Jeffcott rotor model with consideration of different crack depths, crack locations, and shaft material. Finite element results and their experimental verification obtained by FFT analysis show that increasing crack depth decreases the first critical speed of the system. Also, an increasing number of cracks results in decreases in the system’s first critical speed. The presence of a crack changes the stiffness of the shaft which results in, a decreasing the natural frequency. The present study approach provides an improved platform for crack diagnostic information to the vibration condition monitoring community for using Ansys software effectively as a finite element tool for performing rotordynamic analysis in Industry 4.0.

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来源期刊

Noise and Vibration Worldwide Physics and Astronomy-Acoustics and Ultrasonics

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： Noise & Vibration Worldwide (NVWW) is the WORLD"S LEADING MAGAZINE on all aspects of the cause, effect, measurement, acceptable levels and methods of control of noise and vibration, keeping you up-to-date on all the latest developments and applications in noise and vibration control.