A novel negative stiffness magnetic spring design for vehicle seat suspension system

Lixin Tu; Donghong Ning; Shuaishuai Sun; Wenxing Li; Hua Huang; Mingming Dong; Haiping Du

doi:10.1016/j.mechatronics.2020.102370

A novel negative stiffness magnetic spring design for vehicle seat suspension system

Lixin Tu, Donghong Ning, Shuaishuai Sun, Wenxing Li, Hua Huang, Mingming Dong^*, Haiping Du

^*Corresponding author for this work

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

By employing a couple of columnar magnets with a specific arrangement, a negative stiffness magnetic spring (NSMS) is designed, modelled and then experimentally validated in this paper. Such a magnetic spring with negative stiffness can be used for a semi-active seat suspension to achieve vibration reduction on vehicle drivers. Extensive simulation analysis and experimental validation based on static and vibration responses reveal that NSMS brings the beneficial low dynamics stiffness for seat suspension and reduces the resonance frequency vibration during the vertical excitation without compromising loading capacity. Besides, a semi-active seat suspension system with the NSMS can achieve excellent performance of low-frequency vibration suppression (around 28.8 % acceleration reduction under random excitation).

Original language	English
Article number	102370
Journal	Mechatronics
Volume	68
DOIs	https://doi.org/10.1016/j.mechatronics.2020.102370
Publication status	Published - Jun 2020

Keywords

Low-frequency vibration
Magnetic spring
Negative stiffness
Seat suspension system

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10.1016/j.mechatronics.2020.102370

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title = "A novel negative stiffness magnetic spring design for vehicle seat suspension system",

abstract = "By employing a couple of columnar magnets with a specific arrangement, a negative stiffness magnetic spring (NSMS) is designed, modelled and then experimentally validated in this paper. Such a magnetic spring with negative stiffness can be used for a semi-active seat suspension to achieve vibration reduction on vehicle drivers. Extensive simulation analysis and experimental validation based on static and vibration responses reveal that NSMS brings the beneficial low dynamics stiffness for seat suspension and reduces the resonance frequency vibration during the vertical excitation without compromising loading capacity. Besides, a semi-active seat suspension system with the NSMS can achieve excellent performance of low-frequency vibration suppression (around 28.8 % acceleration reduction under random excitation).",

keywords = "Low-frequency vibration, Magnetic spring, Negative stiffness, Seat suspension system",

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AU - Tu, Lixin

AU - Ning, Donghong

AU - Sun, Shuaishuai

AU - Li, Wenxing

AU - Huang, Hua

AU - Dong, Mingming

AU - Du, Haiping

PY - 2020/6

Y1 - 2020/6

N2 - By employing a couple of columnar magnets with a specific arrangement, a negative stiffness magnetic spring (NSMS) is designed, modelled and then experimentally validated in this paper. Such a magnetic spring with negative stiffness can be used for a semi-active seat suspension to achieve vibration reduction on vehicle drivers. Extensive simulation analysis and experimental validation based on static and vibration responses reveal that NSMS brings the beneficial low dynamics stiffness for seat suspension and reduces the resonance frequency vibration during the vertical excitation without compromising loading capacity. Besides, a semi-active seat suspension system with the NSMS can achieve excellent performance of low-frequency vibration suppression (around 28.8 % acceleration reduction under random excitation).

AB - By employing a couple of columnar magnets with a specific arrangement, a negative stiffness magnetic spring (NSMS) is designed, modelled and then experimentally validated in this paper. Such a magnetic spring with negative stiffness can be used for a semi-active seat suspension to achieve vibration reduction on vehicle drivers. Extensive simulation analysis and experimental validation based on static and vibration responses reveal that NSMS brings the beneficial low dynamics stiffness for seat suspension and reduces the resonance frequency vibration during the vertical excitation without compromising loading capacity. Besides, a semi-active seat suspension system with the NSMS can achieve excellent performance of low-frequency vibration suppression (around 28.8 % acceleration reduction under random excitation).

KW - Low-frequency vibration

KW - Magnetic spring

KW - Negative stiffness

KW - Seat suspension system

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A novel negative stiffness magnetic spring design for vehicle seat suspension system

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Keywords

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