Numerical and experimental studies of an electromechanical system with discontinuity excited by a non-sinusoidal periodic voltage

•The paper explores an electromechanical system excited by non-sinusoidal voltage.•Two steady states with one stable and its counterpart unstable.•Square and triangular excitation increases and decreases displacement amplitude.•Model reports periodic and chaotic dynamics for various elasticity diffe...

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Bibliographic Details
Published inJournal of magnetism and magnetic materials Vol. 601; p. 172173
Main Authors Kounchie Foguem, Prosper, Takougang Kingni, Sifeu, Ainamon, Cyrille, Woafo, Paul
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.07.2024
Subjects
Chaotic dynamics
Experimental study
Non-sinusoidal excitation
Non-smooth electromechanical systems
Periodic dynamics
Chaotic dynamics
Periodic dynamics
Experimental study
Non-smooth electromechanical systems
Non-sinusoidal excitation
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Summary:•The paper explores an electromechanical system excited by non-sinusoidal voltage.•Two steady states with one stable and its counterpart unstable.•Square and triangular excitation increases and decreases displacement amplitude.•Model reports periodic and chaotic dynamics for various elasticity differences.•Results of numerical simulations are confirmed experimentally. This paper deals with the theoretical and experimental study of an electromechanical system with discontinuity excited by non-sinusoidal periodic voltage (EMSDENPV). After the conception and realization of the experimental prototype, its modeling is presented. The stability study of the EMSDENPV presents two steady states, one is unconditionally stable and the other one is unconditionally unstable. With a square excitation, the amplitude of the displacement increases with the increase of the elastic coefficient. With triangular excitation, the amplitude of the displacement decreases with the increase of the elastic coefficient. For square and triangular excitations, the numerical simulations of EMSDENPV show that periodic oscillations appear for low elasticity and low amplitude of the excitation. For high values of the elasticity coefficients and high amplitude of the excitation, chaotic dynamics appear. The results of the numerical simulations of EMSDENPV are verified experimentally and a good qualitative agreement is established.
ISSN:0304-8853
DOI:10.1016/j.jmmm.2024.172173