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Magnetoelastic simultaneous resonance of axially moving plate strip under a line load in stationary magnetic field
Abstract This paper studies the primary-internal simultaneous resonance of the moving ferromagnetic thin plate with the action of an alternating line load in a transverse stationary magnetic field. Based on the theory of thin plates, expressions of strain energy and kinetic energy of the thin plate are given. According to the theoretical magnetoelastic model for ferromagnets, the calculation formula for electromagnetic force is derived. The magnetoelastic coupling nonlinear vibration equation is established by using Hamilton’s principle. Duffing-type nonlinear differential equations are obtained for the clamped-hinged plate strip by applying the Galerkin method. The steady-state response of the system with primary resonance and 1:3 internal resonance is given by using the method of multiple scales, and the stability of steady-state solutions are analyzed according to the theory of Lyapunov stability. The primary-internal simultaneous resonance characteristics of the plate strip are presented through numerical examples. Results show that: energy exchange between the first two modes is available and the first mode dominates; jump phenomena exist in amplitude–frequency curves; both the values of steady solutions and the multi-valued regions of amplitude change with varieties of physical parameters; and numerical results agree with analytical results, which verifies the reliability of analytical research method in this paper.
Highlights Primary resonance and 1:3 internal resonance of the ferromagnetic plate strip are studied. The magnetization effect of magnetic field and the effect of axial motion are considered. Effects of thickness, velocity and magnetic field intensity on response are analyzed. We investigated the multiple solutions and the stability of steady-state solutions.
Magnetoelastic simultaneous resonance of axially moving plate strip under a line load in stationary magnetic field
Abstract This paper studies the primary-internal simultaneous resonance of the moving ferromagnetic thin plate with the action of an alternating line load in a transverse stationary magnetic field. Based on the theory of thin plates, expressions of strain energy and kinetic energy of the thin plate are given. According to the theoretical magnetoelastic model for ferromagnets, the calculation formula for electromagnetic force is derived. The magnetoelastic coupling nonlinear vibration equation is established by using Hamilton’s principle. Duffing-type nonlinear differential equations are obtained for the clamped-hinged plate strip by applying the Galerkin method. The steady-state response of the system with primary resonance and 1:3 internal resonance is given by using the method of multiple scales, and the stability of steady-state solutions are analyzed according to the theory of Lyapunov stability. The primary-internal simultaneous resonance characteristics of the plate strip are presented through numerical examples. Results show that: energy exchange between the first two modes is available and the first mode dominates; jump phenomena exist in amplitude–frequency curves; both the values of steady solutions and the multi-valued regions of amplitude change with varieties of physical parameters; and numerical results agree with analytical results, which verifies the reliability of analytical research method in this paper.
Highlights Primary resonance and 1:3 internal resonance of the ferromagnetic plate strip are studied. The magnetization effect of magnetic field and the effect of axial motion are considered. Effects of thickness, velocity and magnetic field intensity on response are analyzed. We investigated the multiple solutions and the stability of steady-state solutions.
Magnetoelastic simultaneous resonance of axially moving plate strip under a line load in stationary magnetic field
Hu, Yuda (author) / Xie, Mengxue (author)
Thin-Walled Structures ; 185
2023-02-03
Article (Journal)
Electronic Resource
English
PRINCIPAL-INTERNAL RESONANCE OF AN AXIALLY MOVING THIN PLATE SUBJECTED TO DOUBLE LINE LOADS
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