Building the Solution of the Lame Problem for a Cylinder with a Spiral Anisotropy and its Applications in Hemodynamics of Arterial Vessels

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Home Editorial board Publication ethics Peer review guidelines Latest issue All issues Rules for authors Online submission system’s guidelines Submit manuscript Contacts Address: Vatutina st. 53, Vladikavkaz, 362025, RNO-A, Russia Phone: (8672)23-00-54 E-mail: rio@smath.ru	Dear authors! Submission of all materials is carried out only electronically through Online Submission System in personal account. DOI: 10.23671/VNC.2017.1.5822 Building the Solution of the Lame Problem for a Cylinder with a Spiral Anisotropy and its Applications in Hemodynamics of Arterial Vessels Portnov E. N. , Ustinov Yu. А. Vladikavkaz Mathematical Journal 2017. Vol. 19. Issue 1. Abstract: A cylinder with spiral anisotropy may be presented, in particular, as a result of spiral wrapping of a cylindrical surface by layers of thin threads of rigid material with simultaneous covering by a polymer material. Thus, there will be locally transversely isotropic composite material with a symmetry axis directed tangentially to helical spirals; in order to determine its elastic characteristics, one can use homogenization methods. To construct a mathematical model of propagation of sphygmic"pressure waves'' in arterial vessels whose walls possess spiral anisotropy, we give a description of the method to calculate a radial stiffness and phase velocity of a certain wave. In the same way, we present a comparative analysis of radial stiffness values, various theories and calculation results illustrating the dependency of rigidity and phase velocity on geometric parameters. Keywords: wave pressure, helical anisotropy, radial stiffness, the phase velocity. Language: Russian Download the full text For citation: Portnov E. N., Ustinov Yu. А. Building the Solution of the Lame Problem for a Cylinder with a Spiral Anisotropy and its Applications in Hemodynamics of Arterial Vessels. Vladikavkazskij matematicheskij zhurnal [Vladikavkaz Math. J.], vol. 19, no. 1, pp.3-11. DOI 10.23671/VNC.2017.1.5822 + References 1. Batishev V. A., Ustinov Yu. A. Mathematical models of blood motion in arterial vessels. Matematicheskij forum. T. 10, ch. 2. Issledovanija po matematicheskomu analizu, differencial'nym uravnenijam i ih prilozhenijam [Mathematical Forum. Vol. 10, part 2. Studies on Mathematical Analysis, Differential Equations, and Their Applications], 2016, pp. 15-30 (Review of Science: The South of Russia) [in Russian]. 2. Panfilov I., Ustinov Yu. A. Vibrations and waves in a cylinder with spiral anisotropy. Akusticheskiy zhurnal [Acoustical Journal] 2010, vol. 56, no. 6, pp. 759-766. 3. Resal H. Sur les petits mouvements d'un fluide incompressible dans un tuysu elastique. J. de Math. Pures et Appliquees. Amsterdam, 1876. 166 p. [in French]. 4. Moens J. Pulscurve. Leiden, 1878, 80 p. 5. Kortveg D. J. Over Vooriplantigs snelheid van golven in elastische buisen. PhD Thesis. Univ. of Amsterdam, Amsterdam, 1878. 166 p. [in Dutch]. 6. Gromeko I. S. On a velocity of wave-type propagation of liquids in elastic tubes. Collected Works. SA USSR Publ., 1952. pp. 172-183. 7. Lurie A. I. Theory of Elasticity. M., 1970, 940 p. 8. Ustinov Yu. A. Some problems for elastic cylindric bodies with spiral anisotropy. Uspekhi mekhaniki [Mechanics Advances]. 2003, vol. 2, no. 4, pp. 37-62. 9. Lekhnitskiy S. G. Theory of Elsaticity for an Isotropic Body. Science, M., 1977. 415 p. ← Contents of issue


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