Letters to the EditorVIBRATION CONTROL OF A SEMI-ACTIVE SUSPENSION FEATURING ELECTRORHEOLOGICAL FLUID DAMPERS
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Cited by (100)
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2022, International Journal of Non-Linear MechanicsCitation Excerpt :In these systems, as the excitation frequency increased, the directly excited mode response in a necessarily constant amplitude saturated, while the other mode of vibration (one half of excitation frequency) grew and absorbed the vibration energy [28]. The performance of classical autoparametric absorbers was improved by semi-active [29–33] and active control techniques [17,34–36]. One of instrument to create nonlinearity is the Negative stiffness Mechanism (NSM).
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2021, Journal of Sound and VibrationCitation Excerpt :During past decades, many researchers have been working on mitigation and control of unwanted vibrations in engineering structures [1,2]. Generally, the methods of vibration mitigation can be summarized in four strategies: passive, semi-active, active and hybrid [3-6]. Among these methods, passive vibration mitigation is the most widely used since it does not require external power.
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2020, Journal of Sound and VibrationCitation Excerpt :As a common phenomenon in engineering applications, vibration can be very harmful to machines and structures. During the past decades, many researchers have proposed different methods and designed devices to suppress and control vibrations [1–3]. The main vibration control methods can be summarized as follows: passive control, active control, hybrid control and semi-active control [4–7].
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