Analytical investigations of nonlinear stiffness characteristics of Halbach-cylinder magnetic springs for heavy-load capacity
Analytical investigations of nonlinear stiffness characteristics of Halbach-cylinder magnetic springs for heavy-load capacity
Quasi-zero stiffness (QZS) has become a promising way of realizing low-frequency vibration isolation, where magnetic springs have been widely adopted for constructing negative stiffness. However, existing single-layer magnetic springs often have a small-amplitude negative stiffness, so the loading capacity is low. In order to address this issue, this paper presents novel Halbach-cylinder magnetic springs (HCMSs) by using the Halbach array. Firstly, stiffness formulas of basic single-layer magnetic springs are analytically built based on the Amperian current model. The stiffness of the HCMS is derived from combining multiple single-layer magnetic springs. Then, nonlinear stiffness characteristics of both single-layer magnetic springs and HCMSs are investigated in terms of the amplitude, the uniformity, and the displacement range of negative stiffness. Analytical results show that HCMSs can generate negative stiffness with different equilibrium positions, and the amplitude of negative stiffness of HCMSs is much larger than that of single-layer magnetic springs. The amplitude of negative stiffness is in conflict with the uniformity, so a trade-off design is needed. In addition, increasing the number of layers of Halbach cylinders can be adopted to realize larger-amplitude and wider-range negative stiffness. This study will provide new insights into designing QZS with heavy-load capacity.
quasi-zero stiffness; heavy load; large-amplitude negative stiffness; magnetic spring; Halbach arrays; Halbach-cylinder magnetic spring, Halbach arrays, Halbach-cylinder magnetic spring, quasi-zero stiffness, large-amplitude negative stiffness, magnetic spring, heavy load
Chen, Zhongsheng
99d3f8e0-6383-4bc4-85f4-f9aeaf7d2323
Zhang, Yangyi
5153f045-7a8e-46fe-add7-cea2bbb76e34
Xiong, Yeping
51be8714-186e-4d2f-8e03-f44c428a4a49
Wang, Ankang
7bbaaaaa-36a2-4608-85e4-6987f96c9385
3 May 2025
Chen, Zhongsheng
99d3f8e0-6383-4bc4-85f4-f9aeaf7d2323
Zhang, Yangyi
5153f045-7a8e-46fe-add7-cea2bbb76e34
Xiong, Yeping
51be8714-186e-4d2f-8e03-f44c428a4a49
Wang, Ankang
7bbaaaaa-36a2-4608-85e4-6987f96c9385
Chen, Zhongsheng, Zhang, Yangyi, Xiong, Yeping and Wang, Ankang
(2025)
Analytical investigations of nonlinear stiffness characteristics of Halbach-cylinder magnetic springs for heavy-load capacity.
Applied Sciences (Switzerland), 15 (9), [5099].
(doi:10.3390/app15095099).
Abstract
Quasi-zero stiffness (QZS) has become a promising way of realizing low-frequency vibration isolation, where magnetic springs have been widely adopted for constructing negative stiffness. However, existing single-layer magnetic springs often have a small-amplitude negative stiffness, so the loading capacity is low. In order to address this issue, this paper presents novel Halbach-cylinder magnetic springs (HCMSs) by using the Halbach array. Firstly, stiffness formulas of basic single-layer magnetic springs are analytically built based on the Amperian current model. The stiffness of the HCMS is derived from combining multiple single-layer magnetic springs. Then, nonlinear stiffness characteristics of both single-layer magnetic springs and HCMSs are investigated in terms of the amplitude, the uniformity, and the displacement range of negative stiffness. Analytical results show that HCMSs can generate negative stiffness with different equilibrium positions, and the amplitude of negative stiffness of HCMSs is much larger than that of single-layer magnetic springs. The amplitude of negative stiffness is in conflict with the uniformity, so a trade-off design is needed. In addition, increasing the number of layers of Halbach cylinders can be adopted to realize larger-amplitude and wider-range negative stiffness. This study will provide new insights into designing QZS with heavy-load capacity.
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applsci-Final accepted
- Accepted Manuscript
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applsci-2025 15-5099
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Accepted/In Press date: 2 May 2025
Published date: 3 May 2025
Keywords:
quasi-zero stiffness; heavy load; large-amplitude negative stiffness; magnetic spring; Halbach arrays; Halbach-cylinder magnetic spring, Halbach arrays, Halbach-cylinder magnetic spring, quasi-zero stiffness, large-amplitude negative stiffness, magnetic spring, heavy load
Identifiers
Local EPrints ID: 500714
URI: http://eprints.soton.ac.uk/id/eprint/500714
ISSN: 2076-3417
PURE UUID: 3c14df0b-9600-44fd-9ef0-04cbca3b14a4
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Date deposited: 12 May 2025 16:33
Last modified: 28 Aug 2025 01:40
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Author:
Zhongsheng Chen
Author:
Yangyi Zhang
Author:
Ankang Wang
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