Abstract
In this paper, a review of the nonlinear aspects of the mechanical inerter will be presented. The historical context goes back to the development of isolators and absorbers in the first half of the twentieth century. Both mechanical and fluid-based nonlinear inerter devices were developed in the mid- and late twentieth century. However, interest in the inerter really accelerated in the early 2000s following the work of Smith [87], who coined the term ‘inerter’ in the context of a force–current analogy between electrical and mechanical networks. Following the historical context, both fluid and mechanical inerter devices will be reviewed. Then, the application of nonlinear inerter-based isolators and absorbers is discussed. These include different types of nonlinear energy sinks, nonlinear inerter isolators and geometrically nonlinear inerter devices, many relying on concepts such as quasi-zero-stiffness springs. Finally, rocking structures with inerters attached are considered, before conclusions and some future directions for research are presented.
Highlights
During the last 20 years, mechanical inerter devices have been the subject of substantial research interest in both academia and industry
This paper presents a review of the nonlinear dynamics aspects of the mechanical inerter— to cover the historical context, a limited amount of linear dynamics is discussed as well
Inerters are often modelled as a linear dynamic phenomenon, the physical devices that have been manufactured are typically nonlinear in nature
Summary
During the last 20 years, mechanical inerter devices have been the subject of substantial research interest in both academia and industry These devices have been a major innovation in the research field of passive vibration control. They have been primarily described in the literature in terms of linear vibration phenomena. As this field of research begins to mature, there is a growing recognition that nonlinearity plays a significant role in these devices. This paper presents a review of the nonlinear dynamics aspects of the mechanical inerter— to cover the historical context, a limited amount of linear dynamics is discussed as well.
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