Research on the Development and Application of Electromagnetic Clutch

Zhiyong Li; Xujun Jiang; Zhongming Chen

doi:10.54097/53rkyd29

Authors

Zhiyong Li
Xujun Jiang
Zhongming Chen

DOI:

https://doi.org/10.54097/53rkyd29

Keywords:

Electromagnetic Clutch, Industrial Automation, Mechanical Transmission, Automotive Braking

Abstract

As a core device, electromagnetic clutch is increasingly used in various fields such as automatic control systems. This paper introduces the basic principles, core components and key role of electromagnetic clutch in mechanical connection and disconnection. By analyzing the historical development of electromagnetic clutch, it points out how technological progress has promoted its application in different fields, including industrial automation, automotive braking system and special application fields. With the development of new materials and new technologies, electromagnetic clutch faces new challenges and opportunities. Future research directions will focus on optimizing design, improving energy efficiency and reducing maintenance costs, while considering the needs of environmental protection and sustainable development to promote the further development and application of electromagnetic clutch technology.

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References

[1] Chowdhary A, Kumar A, Singh S K. Design and analysis of an electro-magnetic clutch[J]. International Journal of Progressive Research in Science and Engineering, 2020, 1(3): 89-95.

[2] Poltschak F, Rafetseder D. Completely Integrated Electromagnetic Dog Clutch Actuator for Automotive Applications [C] //IKMT 2022; 13. GMM/ETG-Symposium. VDE, 2022: 1-6.

[3] Wu J, Deng B, Huang Y, et al. A multi-pole magnetorheological clutch powered by permanent magnets and excitation coils[J]. Journal of Intelligent Material Systems and Structures, 2023, 34(2): 217-228.

[4] Xu X, Dong P, Liu Y, et al. Progress in automotive transmission technology[J]. Automotive Innovation, 2018, 1: 187-210.

[5] Aiyama Y, Liu T. Development of light and compact clutch device using jamming effect[C]//ISR 2018; 50th International Symposium on Robotics. VDE, 2018: 1-6.

[6] Lokhande S B, Patil S R. Experimental characterization and evaluation of magnetorheological clutch for an electric two-wheeler application[J]. Measurement, 2021, 175: 109150.

[7] Lin Jianjun, Lin Zicheng, Yang Jingwen, et al. Development of electromagnetic clutch [J]. Times Automobile, 2022(03):158-159.

[8] Wang Zuohan. Exploring the development of clutch technology [J]. Commercial Vehicle, 2015 (8): 68-69.

[9] Wang Kunhuai. Exploring the development and function of automobile clutch [J]. Chinese Science and Technology Journal Database (Full Text Edition) Engineering Technology, 2017 (03): 00326-00326.

[10] Duan Xiangbo, Zhu Boran. Development analysis and application research of automotive clutch [J]. Chinese Science and Technology Journal Database (Full Text Edition) Engineering Technology, 2017 (05): 00307-00307.

[11] Liao Linqing, Ma Anpeng, Zhang Jun, et al. Analysis of key technologies and application prospects of dual-clutch automatic transmission [J]. Mechanical Transmission, 2015, 39(6): 196-199.

[12] Zhong Wei, Mei Ziyuan, Tao Peng. Research on the principle of wet dual clutch[J]. Journal of Qingyuan Vocational and Technical College, 2017, 10(6): 44-46.

[13] Della Gatta A, Iannelli L, Pisaturo M, et al. A survey on modeling and engagement control for automotive dry clutch[J]. Mechatronics, 2018, 55: 63-75.

[14] Zhang H, Du H, Sun S, et al. A novel magneto-rheological fluid dual-clutch design for two-speed transmission of electric vehicles[J]. Smart Materials and Structures, 2021, 30(7): 075035.

[15] Yang F, Gu C. Power Supply System Design and Dynamic Analysis of a Permanent Magnet Bistable Electromagnetic Clutch for Wheel Motor Drive[J]. IEEE Access, 2020, 8: 218161-218169.

[16] Wu J, Yan H, Zheng Z, et al. Design and Optimization of Low Impact Shift Control Strategy for Aviation Transmission Power System Based on Response Surface Methodology[J]. Applied Sciences, 2023, 13(22): 12115.

[17] Wu J, Yan H, Zheng Z, et al. Design and Optimization of Low Impact Shift Control Strategy for Aviation Transmission Power System Based on Response Surface Methodology[J]. Applied Sciences, 2023, 13(22): 12115.

[18] Russo M, Barrientos-Diez J, Axinte D. A kinematic coupling mechanism with binary electromagnetic actuators for high-precision positioning[J]. IEEE/ASME Transactions on Mechatronics, 2021, 27(2): 892-903.

[19] Yin S, Shi B, Liu G, et al. Electromagnetic Clutch-based Ankle Exosuit for Assisting Stroke Survivors with Different Body Sizes[J]. IEEE Robotics and Automation Letters, 2023.