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IssuesArchive of Issues2012-2pp.195-204

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I.A. Panfilov and Yu.A. Ustinov, "Harmonic Vibrations and Waves in a Cylindrical Helically Anisotropic Shell," Mech. Solids. 47 (2), 195-204 (2012)
Year 2012 Volume 47 Number 2 Pages 195-204
DOI 10.3103/S0025654412020069
Title Harmonic Vibrations and Waves in a Cylindrical Helically Anisotropic Shell
Author(s) I.A. Panfilov (South Federal University, Mil'chakova 8a, Rostov-on-Don, 344090 Russia, mehanic_rgu@mail.ru)
Yu.A. Ustinov (South Federal University, Mil'chakova 8a, Rostov-on-Don, 344090 Russia, ustinov@math.rsu.ru)
Abstract A Kirchhoff-Love type applied theory is used to study the specific characteristics of harmonic waves and vibrations of a helically anisotropic shell. Special attention is paid to axisymmetric and bending vibrations. In both cases, the dispersion equations are constructed and a qualitative and numerical analysis of their roots and the corresponding elementary solutions is performed. It is shown that the skew anisotropy in the axisymmetric case generates a relation between the longitudinal and torsional vibrations which is mathematically described by the amplitude coefficients of homogeneous waves. In the case of a shell with rigidly fixed end surfaces, the dependence of the first two natural frequencies on the shell length and the helical line slope α, i.e., the geometric parameter of helical anisotropy, is studied. A boundary value problem in which longitudinal vibrations are generated on one of the end surfaces and the other end is free of forces and moments is considered to analyze the degree of transformation of longitudinal vibrations into longitudinally torsional vibrations. In the case of bending vibrations, two problems for a half-infinite shell are studied as well. In the first problem, the waves are excited kinematically by generating harmonic vibrations of the shell end surface in the plane of the axial cross-section, and it is shown that the axis generally moves in some closed trajectories far from the end surface. In the second problem, the reflection of a homogeneous wave incident on the shell end is examined. It is shown that the "boundary resonance" phenomenon can arise in some cases.
Keywords shell, vibration, wave, helical anisotropy
References
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2.  Yu. A. Ustinov, Saint-Venant Problems for Pseudocylinders (Nauka, Moscow, 2003) [in Russian].
3.  Yu. A. Ustinov, "A Model of the Helical Pulsed Flow of Blood in Arteries," Dokl. Ross. Akad. Nauk 398 (3), 344-348 (2004) [Dokl. Phys. (Engl. Transl.) 49 (9), 543-547 (2004)].
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5.  Yu. A. Ustinov, "Several Problems for Elastic Cylindrical Helically Anisotropic Bodies," Uspekhi Mekh. 2 (4), 37-62 (2003).
6.  S. E. Bogachenko and Yu. A. Ustinov, "Several Specific Characteristics of Wave Processes in Cylindrical Helically Anisotropic Shells," Ecology Vestnik, Sci. Centers of Black Sea Economy Commonwealth, No. 1, 18-21 (2006).
7.  Yu. A. Ustinov, "On Helical Pulse Blood Motion in Arterial Vessels," Izv. Vyssh. Uchebn. Zaved., North Caucasus region, Natural Sciences, Special Issue, 220-223 (2004).
8.  Yu. A. Ustinov, "Model of Helical Pulse Blood Motion in Arterial Vessels," Dokl. Ross. Akad. Nauk 398 (3), 344-348 (2004) [Russian Acad. Sci. Dokl. Math.].
9.  I. A. Panfilov and Yu. A. Ustinov, "Natural Frequencies and Shapes of a Cylindrical Helically Anisotropic Shell," in Proc. XI Intern. Conf. "Contemporary Problems of Continuum Mechanics" (Izdat. OOO "TsVVR", Rostov-on-Don, 2007), Vol. 2, pp. 166-171.
10.  I. A. Panfilov and Yu. A. Ustinov, "Reflection of Homogeneous Waves from the End Surface of a Cylindrical Helically Anisotropic Shell," in Proc. XII Intern. Conf. "Contemporary Problems of Continuum Mechanics" (Izdat. OOO "TsVVR", Rostov-on-Don, 2008), Vol. 2, pp. 152-156.
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Received 20 May 2009
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