A Review on Structural Configurations of Magnetorheological Clutch

Baopeng Liu, Ran Ma, Chong Chen, Jiahao Tang
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Abstract

In recent years, with the development of "smart materials", magnetorheological fluids have been widely used in the fields of mechanical transmission, aerospace, construction, and medical treatment because of the unique rheological properties that can occur under the action of an applied magnetic field. Magnetorheological clutches with magnetorheological fluid as the working medium have the advantages of simple structure, low noise, fast response, and easy control compared with traditional clutches. In order to provide an overview of the issues encountered by magnetorheological clutches in their current applications and to summarize the optimization designs implemented to address these issues, with the aim of promoting the widespread application of magnetorheological clutches. The basic theory of magnetorheological fluid and magnetorheological clutch design method is introduced. The related patents of magnetorheological clutch structure design are reviewed. The characteristics and advantages of magnetorheological clutch in different working modes are summarized. This study introduces the basic theory of magnetorheological fluid. The problems existing in the application of magnetorheological clutch are explained. The characteristics of magnetorheological clutch based on shear mode, shear-extrusion mode and heat dissipation mode are described. The development trend of magnetorheological clutch is discussed. This paper provides an important basis for the design and application of magnetorheological clutch, offers specific guidance for improving the torque transmission capacity and heat dissipation capacity of magnetorheological clutch, and lays a theoretical foundation for the wide application of magnetorheological clutch in the future.
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磁流变离合器结构配置综述
近年来,随着 "智能材料 "的发展,磁流变流体因其在外加磁场作用下产生的独特流变特性,被广泛应用于机械传动、航空航天、建筑和医疗等领域。与传统离合器相比,以磁流变液为工作介质的磁流变离合器具有结构简单、噪音低、响应快、易于控制等优点。为了概述磁流变离合器在当前应用中所遇到的问题,并总结为解决这些问题而实施的优化设计,以促进磁流变离合器的广泛应用。介绍了磁流变流体的基本理论和磁流变离合器的设计方法。综述了磁流变离合器结构设计的相关专利。总结了磁流变离合器在不同工作模式下的特点和优势。阐述了磁流变离合器应用中存在的问题。阐述了基于剪切模式、剪切挤压模式和散热模式的磁流变离合器的特点。讨论了磁流变离合器的发展趋势。本文为磁流变离合器的设计和应用提供了重要依据,为提高磁流变离合器的扭矩传递能力和散热能力提供了具体指导,为今后磁流变离合器的广泛应用奠定了理论基础。
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来源期刊
Recent Patents on Engineering
Recent Patents on Engineering Engineering-Engineering (all)
CiteScore
1.40
自引率
0.00%
发文量
100
期刊介绍: Recent Patents on Engineering publishes review articles by experts on recent patents in the major fields of engineering. A selection of important and recent patents on engineering is also included in the journal. The journal is essential reading for all researchers involved in engineering sciences.
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