Vibration isolation performance enhancement using hybrid nonlinear inerter and negative stiffness based on linkage mechanism

Dai, Wei; Shi, Baiyang; Yang, · Jian

doi:10.1007/s42417-023-00879-8

All Outputs (3)

Performance analysis of frictional inerter-based vibration isolators (2023)
Journal Article
Chao, C., Shi, B., Dai, W., & Yang, J. (2023). Performance analysis of frictional inerter-based vibration isolators. Journal of Vibration Engineering & Technologies, 11, 2793–2817. https://doi.org/10.1007/s42417-023-01051-y

Purpose: This study aims to gain an in-depth understanding of the effect of the inherent dry friction of inerter devices on the performance of non-linear frictional inerter-based vibration isolation system (NFI-VIS). Methods: The power flow analysis... Read More about Performance analysis of frictional inerter-based vibration isolators.

Performance enhancement by exploiting geometrical nonlinearity of inerters in a two-stage vibration isolator (2023)
Journal Article
Dai, W., Shi, B., Li, T., Zhu, X., & Yang, J. (2023). Performance enhancement by exploiting geometrical nonlinearity of inerters in a two-stage vibration isolator. International Journal of Applied Mechanics, 15(6), Article 2350045. https://doi.org/10.1142/S175882512350045X

This research proposes a two-stage vibration isolation system (TS-VIS) exploiting geometrical nonlinearity by inerters for performance enhancement. Lateral inerters are added to upper and lower stages creating geometric nonlinearity. The transmissibi... Read More about Performance enhancement by exploiting geometrical nonlinearity of inerters in a two-stage vibration isolator.

Vibration isolation performance enhancement using hybrid nonlinear inerter and negative stiffness based on linkage mechanism (2023)
Journal Article
Dai, W., Shi, B., & Yang, ·. J. (2024). Vibration isolation performance enhancement using hybrid nonlinear inerter and negative stiffness based on linkage mechanism. Journal of Vibration Engineering & Technologies, 12, 837–855. https://doi.org/10.1007/s42417-023-00879-8

Purpose: To suppress the low-frequency vibration of dynamic systems such as underwater vehicles, this research proposes a novel geometrically nonlinear vibration isolator using hybrid nonlinear inertial andnegative stiffness element. Methods: A sprin... Read More about Vibration isolation performance enhancement using hybrid nonlinear inerter and negative stiffness based on linkage mechanism.