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MECHANICS
Composite wing vibration coupling control
V. M. Ryabova, B. A. Yartsevba a St Petersburg State University, 7-9, Universitetskaya nab., St Petersburg, 199034, Russian Federation
b Krylov State Research Center, 44, Moskovskoye shosse, St. Petersburg, 196158, Russian Federation
Abstract:
The paper discusses the possibility to control coupled bending-twisting vibrations of composite wing by means of the monoclinic structures in the reinforcement of the plating. Decomposing the potential straining energy and kinetic energy of natural vibration modes into interacting and non-interacting parts, it became possible to introduce the two coefficients that integrally consider the effect of geometry and reinforcement structure upon the dynamic response parameters of the wing. The first of these coefficients describes the elastic coupling of the natural vibration modes, the second coefficient describes the inertial one. The paper describes the numerical studies showing how the orientation of considerably anisotropic CRP layers in the plating affects natural frequencies, loss factors, coefficients of elastic and inertial coupling for several lower tones of natural bending-twisting vibrations of the wing. Besides, for each vibration mode, partial values of the above mentioned dynamic response parameters were determined by means of the relationships for orthotropic structures where instead of “free” shearing modulus in the reinforcement plant, “pure” shearing modulus is used. Joint analysis of the obtained results has shown that each pair of bendingtwisting vibration modes has its orientation angle ranges of the reinforcing layers where the inertial coupling caused by asymmetry of the cross-section profile with respect to the main axes of inertia decreases, down to the complete extinction, due to the generation of the elastic coupling in the plating material. These ranges are characterized by the two main features: 1) the difference in the natural frequencies of the investigated pair of bendingtwisting vibration modes is the minimum and 2) natural frequencies of bending-twisting vibrations belong to a stretch restricted by corresponding partial natural frequencies of the investigated pair of vibration modes. This result is of practical importance because it enables approximate analysis of real composite wings with complex geometry in the existing commercial software packages.
Keywords:
composite wing, coupled vibrations, elastic coupling, inertial connectivity, natural frequency, loss factors.
Received: 27.09.2022 Revised: 25.10.2022 Accepted: 17.11.2022
Citation:
V. M. Ryabov, B. A. Yartsev, “Composite wing vibration coupling control”, Vestnik of Saint Petersburg University. Mathematics. Mechanics. Astronomy, 10:2 (2023), 344–356; Vestn. St. Petersbg. Univ., Math., 10:2 (2023), 344–356
Linking options:
https://www.mathnet.ru/eng/vspua248 https://www.mathnet.ru/eng/vspua/v10/i2/p344
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