Analysis and optimisation for inerter-based isolators
via fixed-point theory and algebraic solution
Analysis and optimisation for inerter-based isolators
via fixed-point theory and algebraic solution
This paper is concerned with the problem of analysis and optimisation of the inerter-based isolators based on a “uni-axial” single-degree-of-freedom isolation system. In the first part, in order to gain an in-depth understanding of inerter from the prospective of vibration, the frequency responses of both parallel-connected and series-connected inerters are analysed. In the second part, three other inerter-based isolators are introduced and the tuning procedures in both the H? optimisation and the H2 optimisation are proposed in an analytical manner. The achieved H2 and H? performance of the inerter-based isolators is superior to that achieved by the traditional dynamic vibration absorber (DVA) when the same inertance-to-mass (or mass) ratio is considered. Moreover, the inerter-based isolators have two unique properties, which are more attractive than the traditional DVA: first, the inertance-to-mass ratio of the inerter-based isolators can easily be larger than the mass ratio of the traditional DVA without increasing the physical mass of the whole system; second, there is no need to mount an additional mass on the object to be isolated.
17-36
Hu, Yinlong
0760dc85-857f-45de-8be4-ef2c44c6a563
Chen, Michael Z.Q.
5e59b3ea-9c3b-4329-93b7-f8f991ba8cbb
Shu, Zhan
ea5dc18c-d375-4db0-bbcc-dd0229f3a1cb
Huang, Lixi
0e8ff250-07cc-453c-a5a3-7bf4a69abd98
23 June 2015
Hu, Yinlong
0760dc85-857f-45de-8be4-ef2c44c6a563
Chen, Michael Z.Q.
5e59b3ea-9c3b-4329-93b7-f8f991ba8cbb
Shu, Zhan
ea5dc18c-d375-4db0-bbcc-dd0229f3a1cb
Huang, Lixi
0e8ff250-07cc-453c-a5a3-7bf4a69abd98
Hu, Yinlong, Chen, Michael Z.Q., Shu, Zhan and Huang, Lixi
(2015)
Analysis and optimisation for inerter-based isolators
via fixed-point theory and algebraic solution.
Journal of Sound and Vibration, 346, .
(doi:10.1016/j.jsv.2015.02.041).
Abstract
This paper is concerned with the problem of analysis and optimisation of the inerter-based isolators based on a “uni-axial” single-degree-of-freedom isolation system. In the first part, in order to gain an in-depth understanding of inerter from the prospective of vibration, the frequency responses of both parallel-connected and series-connected inerters are analysed. In the second part, three other inerter-based isolators are introduced and the tuning procedures in both the H? optimisation and the H2 optimisation are proposed in an analytical manner. The achieved H2 and H? performance of the inerter-based isolators is superior to that achieved by the traditional dynamic vibration absorber (DVA) when the same inertance-to-mass (or mass) ratio is considered. Moreover, the inerter-based isolators have two unique properties, which are more attractive than the traditional DVA: first, the inertance-to-mass ratio of the inerter-based isolators can easily be larger than the mass ratio of the traditional DVA without increasing the physical mass of the whole system; second, there is no need to mount an additional mass on the object to be isolated.
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Accepted/In Press date: 27 February 2015
e-pub ahead of print date: 18 March 2015
Published date: 23 June 2015
Organisations:
Mechatronics
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Local EPrints ID: 381654
URI: http://eprints.soton.ac.uk/id/eprint/381654
ISSN: 0022-460X
PURE UUID: e67c2eec-8b93-4e4a-bc49-5471e328f8e3
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Date deposited: 07 Oct 2015 10:47
Last modified: 14 Mar 2024 21:18
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Author:
Yinlong Hu
Author:
Michael Z.Q. Chen
Author:
Zhan Shu
Author:
Lixi Huang
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