Pseudo analytical solution to time periodic stiffness systems |
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Authors: | Wang Yan-Zhong and Zhou Yuan-Zi |
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Affiliation: | School of Mechanical Engineering and Automation, Beihang University, Beijing 100191, China |
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Abstract: | An analytical form of state transition matrix for a system of equations with time periodic stiffness is derived in order to solve the free response and also allow for the determination of system stability and bifurcation. A pseudo-closed form complete solution for parametrically excited systems subjected to inhomogeneous generalized forcing is developed, based on the Fourier expansion of periodic matrices and the substitution of matrix exponential terms via Lagrange-Sylvester theorem. A Mathieu type of equation with large amplitude is presented to demonstrate the method of formulating state transition matrix and Floquet multipliers. A two-degree-of-freedom system with irregular time periodic stiffness characterized by spiral bevel gear mesh vibration is presented to find forced response in stability and instability. The obtained results are presented and discussed. |
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Keywords: | parametric excitation time periodic stiffness stability response |
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