Simulation and characterization of an integrated MR damper with energy harvesting and embedded channels

IF 2.5 3区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Magnetism and Magnetic Materials Pub Date : 2024-10-03 DOI:10.1016/j.jmmm.2024.172557
Lei Jiang , Xiaolong Yang , Denghui Li , Guangyong Huang
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Abstract

Combined with two objectives of vibration reduction and energy harvesting, an integrated magnetorheological (MR) damper with energy harvesting and embedded channels is presented in this research. The effects of different structural parameters on the magnetic flux density and damping performance of the damping module are investigated using the finite element method. In addition, the effects of different frequencies, amplitudes, currents, and external resistances on the damping and energy harvesting characteristics of the proposed damper are experimentally studied. Simulation results demonstrate that the damping force first increases and then decreases with the increase of inner cylinder thickness and magnetic isolation height, increases with the increase of coil turns and current size, and decreases with the increase of outer cylinder thickness and magnetic isolation width. Simulation values of the damping force of the damping module are in good agreement with experimental data. Experimental results indicate that the damping force of the energy harvesting module drops as the external resistance rises. The output voltage of the energy harvesting module increases with the raise of external resistance. The average output power and the energy harvesting efficiency of the new damper reach 7.3 W and 53.5 % when A = 10 mm, f = 2 Hz, and R = 5 Ω.
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带有能量收集和嵌入式通道的集成磁共振阻尼器的仿真和特性分析
结合减振和能量收集这两个目标,本研究提出了一种具有能量收集和嵌入式通道的集成磁流变(MR)阻尼器。采用有限元法研究了不同结构参数对磁通密度和阻尼模块阻尼性能的影响。此外,还通过实验研究了不同频率、振幅、电流和外部电阻对拟议阻尼器的阻尼和能量收集特性的影响。仿真结果表明,阻尼力随着内筒厚度和隔磁高度的增加先增大后减小,随着线圈匝数和电流大小的增加而增大,随着外筒厚度和隔磁宽度的增加而减小。阻尼模块阻尼力的模拟值与实验数据十分吻合。实验结果表明,能量收集模块的阻尼力随着外部电阻的增大而减小。能量收集模块的输出电压随着外部电阻的增大而增大。当 A = 10 mm、f = 2 Hz 和 R = 5 Ω 时,新型阻尼器的平均输出功率和能量收集效率分别达到 7.3 W 和 53.5 %。
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来源期刊
Journal of Magnetism and Magnetic Materials
Journal of Magnetism and Magnetic Materials 物理-材料科学:综合
CiteScore
5.30
自引率
11.10%
发文量
1149
审稿时长
59 days
期刊介绍: The Journal of Magnetism and Magnetic Materials provides an important forum for the disclosure and discussion of original contributions covering the whole spectrum of topics, from basic magnetism to the technology and applications of magnetic materials. The journal encourages greater interaction between the basic and applied sub-disciplines of magnetism with comprehensive review articles, in addition to full-length contributions. In addition, other categories of contributions are welcome, including Critical Focused issues, Current Perspectives and Outreach to the General Public. Main Categories: Full-length articles: Technically original research documents that report results of value to the communities that comprise the journal audience. The link between chemical, structural and microstructural properties on the one hand and magnetic properties on the other hand are encouraged. In addition to general topics covering all areas of magnetism and magnetic materials, the full-length articles also include three sub-sections, focusing on Nanomagnetism, Spintronics and Applications. The sub-section on Nanomagnetism contains articles on magnetic nanoparticles, nanowires, thin films, 2D materials and other nanoscale magnetic materials and their applications. The sub-section on Spintronics contains articles on magnetoresistance, magnetoimpedance, magneto-optical phenomena, Micro-Electro-Mechanical Systems (MEMS), and other topics related to spin current control and magneto-transport phenomena. The sub-section on Applications display papers that focus on applications of magnetic materials. The applications need to show a connection to magnetism. Review articles: Review articles organize, clarify, and summarize existing major works in the areas covered by the Journal and provide comprehensive citations to the full spectrum of relevant literature.
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