Vibration Characteristics of the Bearing Rotor Shaft

Al-Nahrain Journal for Engineering Sciences Pub Date : 2022-04-03 DOI:10.29194/njes.25010049

Karrar Baher, Q. Atiyah, I. Abdulsahib

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Abstract

In this work, the vibrations in the rotor-bearing system are studied experimentally and theoretically using ANSYS Workbench 2020 R1 software to compute the natural frequencies and mode shapes. In the experimental part, the LABVIEW software was used to examine the signal of the frequency domain values obtained from the accelerometer sensors, based on Fast Fourier Transform (FFT) technology and dynamic response spectrum. in the theoretical part, the natural frequencies are determined based on the finite element method for analyzing the system and knowing its behavior and vibration response level. The results showed that the level of vibration becomes higher at high rotational speeds, and it becomes large when the distances between the bearings are large, according to the bearing position and type used in the system. in this work can be concluded, the system is usually affected by the dynamic response around it and is difficult to separate from it, and the vibrations in the system can be controlled by adding an external damping source, which gives the system more stable. A system operating at high speeds can give a large vibration and an unbalanced response.

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轴承转子轴的振动特性

本文利用ANSYS Workbench 2020 R1软件对转子-轴承系统的振动进行了实验和理论研究，计算了系统的固有频率和振型。在实验部分，基于快速傅里叶变换(FFT)技术和动态响应谱，利用LABVIEW软件对加速度计传感器获得的频域值信号进行检测。在理论部分，采用有限元法确定系统的固有频率，分析系统，了解系统的行为和振动响应水平。结果表明，根据系统中使用的轴承位置和类型，高转速时振动水平变高，当轴承之间的距离大时振动水平变大。在这项工作中可以得出结论，系统通常受到其周围的动态响应的影响，并且很难与之分离，并且可以通过添加外部阻尼源来控制系统中的振动，从而使系统更加稳定。高速运行的系统会产生较大的振动和不平衡响应。

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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Al-Nahrain Journal for Engineering Sciences

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