Nonlinear dissipative devices in structural vibration control: A review

• Published in: Journal of sound and vibration Vol. 423; pp. 18 - 49
• Main Authors: Lu, Zheng, Wang, Zixin, Zhou, Ying, Lu, Xilin
• Format: Journal Article
• Language: English
• Published: Amsterdam Elsevier Ltd 09.06.2018; Elsevier Science Ltd
• Subjects: Aerospace engineering; Broadband; Dampers; Damping; Design engineering; Devices; Dissipation; Nonlinear dissipative device; Nonlinear energy sink (NES); Nonlinear response; Nonlinear viscous damper (NVD); Particle impact; Particle impact damper (PID); Passive control; Service life; Stiffness; Structural vibration; Structural vibration control; Vibration; Vibration control; Vibration isolators; Viscous damping; Nonlinear dissipative device; Nonlinear viscous damper (NVD); Nonlinear energy sink (NES); Particle impact damper (PID); Passive control; Structural vibration control
• ISSN: 0022-460X; 1095-8568
• DOI: 10.1016/j.jsv.2018.02.052

Structural vibration is a common phenomenon existing in various engineering fields such as machinery, aerospace, and civil engineering. It should be noted that the effective suppression of structural vibration is conducive to enhancing machine performance, prolonging the service life of devices, and promoting the safety and comfort of structures. Conventional linear energy dissipative devices (linear dampers) are largely restricted for wider application owing to their low performance under certain conditions, such as the detuning effect of tuned mass dampers subjected to nonstationary excitations and the excessively large forces generated in linear viscous dampers at high velocities. Recently, nonlinear energy dissipative devices (nonlinear dampers) with broadband response and high robustness are being increasingly used in practical engineering. At the present stage, nonlinear dampers can be classified into three groups, namely nonlinear stiffness dampers, nonlinear-stiffness nonlinear-damping dampers, and nonlinear damping dampers. Corresponding to each nonlinear group, three types of nonlinear dampers that are widely utilized in practical engineering are reviewed in this paper: the nonlinear energy sink (NES), particle impact damper (PID), and nonlinear viscous damper (NVD), respectively. The basic concepts, research status, engineering applications, and design approaches of these three types of nonlinear dampers are summarized. A comparison between their advantages and disadvantages in practical engineering applications is also conducted, to provide a reference source for practical applications and new research. •It is a highly interdisciplinary survey paper of the state-of-the-art technologies of nonlinear dissipative devices.•The typical nonlinear dissipative devices reported are nonlinear energy sink, particle impact damper and nonlinear viscous damper.•The broad scope of the paper will not only enhance the usefulness of this paper, but it will also attract wider readership to the Journal from various communities.