自适应磁阻尼器功率特性研究

E. A. Kozhukhov, E. Petrovský, K. Bashmur
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摘要

本文研究了高速工艺装置,特别是离心装置工作元件的不平衡问题。当前技术设备发展的趋势是生产率的提高。器件工作特性数量的增加可以通过多种方式实现:从开发新型器件和现有器件的现代化到改善频率特性。因此,提高工艺机械可靠性的阻尼问题在当前技术中变得更加重要。该研究确定了导致工作车轮严重损坏的最危险的振动类型。在分析各种轴向振动对工作车轮影响的基础上,提出了采用自适应阻尼器消除振动的方法。在永磁体上工作的轴向减振器与机械减振器相比具有以下技术优势:相对较高的提升能力、高温下的高转速、不需要工作液供应等。磁阻尼器可以在超高频(大于9000 r/min)下工作,因此有必要研究其在接近极限条件下的工作情况。设计适应性在于橡胶-金属材料的应用中,会产生弹性。作者考虑了一种综合的阻尼方法:磁相互作用的力与弹性力共同作用。本文的目的是确定关键功率特性的相互关系。任何系统的一个必要的判据是它的稳定性,本文用李雅普诺夫判据来评价它的稳定性。本文以理论模型的数学依赖关系的形式给出了主要结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
THE STUDY OF POWER CHARACTERISTICS OF ADAPTIVE MAGNETIC DAMPER
The paper deals with the problem of imbalance of a working element of high-speed technological devices, in particular, centrifugal units. The current trend in the development of technological devices is productivity improvement. The increase in the number of operating characteristics of the devices can be achieved through various ways: from the development of new types of devices and modernization of the existing ones to the improvement of frequency characteristics. Therefore, the issue of damping, which improves the reliability of technological machines, becomes more relevant in current technology. The study identified the most dangerous types of vibrations leading to the considerable damage of a working wheel. Based on the analysis of various axial vibrations influence on a working wheel, the authors proposed the way to eliminate vibrations using an adaptive damper. Axial vibration dampers working on permanent magnets have the following technical advantages over the mechanical dampers: relative high lifting capacity, high rotational speeds at high temperatures, no need for working fluid supply, etc. Magnetic dampers can operate at super high frequencies (more than 9000 r/min), therefore, it is necessary to study their work in the conditions close to limiting ones. The design adaptability is in the application of rubber-metal material, due to which the elastic force arises. The authors consider an integrated approach to damping: the force of magnetic interaction acts together with the elastic force. The aim of the paper is to determine the interrelations of key power characteristics. One of the necessary criteria of any system is its stability, which is evaluated in the paper using L.M. Lyapunov’s criterion. The paper presents the main results in the form of mathematical dependencies of a theoretical model.
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