An asymmetric Duffing oscillator: hysteretic behaviour and jump phenomena
An asymmetric Duffing oscillator: hysteretic behaviour and jump phenomena
The primary resonance response of a non-linear oscillatory system that is excited by both a
constant and a harmonic force is investigated in this study. The equation of motion is the
asymmetric Duffing equation with no linear term and with hardening cubic non-linearity. An
approximate solution corresponding to the steady-state response is sought by the harmonic
balance method. Its stability is studied by applying Floquet theory. Numerical simulations are
also given to confirm the analytical results. It is found that the frequency-response curves of
the harmonic response can be single-valued or multi-valued with different shapes depending
on the values of the system parameters. First, when they are single-valued, their shape is
similar to the response of a linear system. Second, if they are multi-valued, they can have a
maximum of three or five steady-state values. In this group, several different shapes can be
distinguished: one in which the peak is bent to the right, as is for a hardening Duffing
oscillator; another, when it is bent to the left, as is for a softening Duffing oscillator; finally,
there exist responses that have a double bend - first towards lower frequencies, and then
towards higher frequencies. The multivaluedness of these curves causes the occurrence of the
multiple jumps in the system. It is possible for the system to exhibit one or two jumps when
increasing frequency and one or two jumps when decreasing frequency. The effects of
different parameters on the system behaviour are analysed. The analogy between the
asymmetric Duffing equation and the Helmoltz-Duffing equation is also discussed
primary resonance, frequency-response curve, multiple jumps, hysteretic behaviour
Kovacic, Ivana
a84bc948-5aa9-444f-8a58-12a731808a20
Brennan, Michael J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Lineton, Benjamin
1ace4e96-34da-4fc4-bc17-a1d82b2ba0e2
June 2008
Kovacic, Ivana
a84bc948-5aa9-444f-8a58-12a731808a20
Brennan, Michael J.
87c7bca3-a9e5-46aa-9153-34c712355a13
Lineton, Benjamin
1ace4e96-34da-4fc4-bc17-a1d82b2ba0e2
Kovacic, Ivana, Brennan, Michael J. and Lineton, Benjamin
(2008)
An asymmetric Duffing oscillator: hysteretic behaviour and jump phenomena.
12th Conference on Nonlinear Vibrations, Dynamics and Multi-Body Systems, Blacksburg, USA.
31 May - 04 Jun 2008.
Record type:
Conference or Workshop Item
(Paper)
Abstract
The primary resonance response of a non-linear oscillatory system that is excited by both a
constant and a harmonic force is investigated in this study. The equation of motion is the
asymmetric Duffing equation with no linear term and with hardening cubic non-linearity. An
approximate solution corresponding to the steady-state response is sought by the harmonic
balance method. Its stability is studied by applying Floquet theory. Numerical simulations are
also given to confirm the analytical results. It is found that the frequency-response curves of
the harmonic response can be single-valued or multi-valued with different shapes depending
on the values of the system parameters. First, when they are single-valued, their shape is
similar to the response of a linear system. Second, if they are multi-valued, they can have a
maximum of three or five steady-state values. In this group, several different shapes can be
distinguished: one in which the peak is bent to the right, as is for a hardening Duffing
oscillator; another, when it is bent to the left, as is for a softening Duffing oscillator; finally,
there exist responses that have a double bend - first towards lower frequencies, and then
towards higher frequencies. The multivaluedness of these curves causes the occurrence of the
multiple jumps in the system. It is possible for the system to exhibit one or two jumps when
increasing frequency and one or two jumps when decreasing frequency. The effects of
different parameters on the system behaviour are analysed. The analogy between the
asymmetric Duffing equation and the Helmoltz-Duffing equation is also discussed
This record has no associated files available for download.
More information
Published date: June 2008
Venue - Dates:
12th Conference on Nonlinear Vibrations, Dynamics and Multi-Body Systems, Blacksburg, USA, 2008-05-31 - 2008-06-04
Keywords:
primary resonance, frequency-response curve, multiple jumps, hysteretic behaviour
Identifiers
Local EPrints ID: 79141
URI: http://eprints.soton.ac.uk/id/eprint/79141
PURE UUID: bacb88b0-33b2-4afb-a827-0473055f8a0d
Catalogue record
Date deposited: 16 Mar 2010
Last modified: 12 Sep 2022 01:38
Export record
Contributors
Author:
Ivana Kovacic
Author:
Michael J. Brennan
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
