Solution of the axismmetric plane thermoelasticity problem for a polar-orthotropic disc of variable thickness in the rotating thermal field by Volterra integral equation of the second kind

  • Uladzimir V. Karalevich Branch office National Pedagogical University M. Dragomanov, Jaselska street, 266/10, 16000, Praha
  • Dmitrij G. Medvedev Belarusian State University, Nezavisimosti avenue, 4, 220030, Minsk

Abstract

With the help of linear Volterra integral equation of the second kind the solution of the axisymmetric plane thermoelasticity problem for a polar-orthotropic disk of variable thickness in the rotating thermal field is generally given. It is assumed that the temperature field in the disk is known and it is axisymmetric. The elastic constants – Youngʼs modulus and shear modulus – are linearly temperature dependent, and Poissonʼs coefficient are considered to be constant. With the stress function axisymmetric plane thermoelasticity problem is reduced to solving the differential equation of the second kind with variable coefficients. Constant efforts are set on the disc contours. The resulting differential equation is reduced to a linear integral Volterra equation of the second kind. The general solution of the integral equation is written down the resolvent is used. The conditions under which the integral equation has a unique continuous solution are given. To calculate the solid drives the disk with a small central hole the radius of which is less than 1/20 of the radius of the outer contour and the implementation of the condition that the radial and tangential stresses in the domestic circuit is implemented. Calculation formulas are given for the component of the radial, tangential stress and radial displacement.

Author Biographies

Uladzimir V. Karalevich, Branch office National Pedagogical University M. Dragomanov, Jaselska street, 266/10, 16000, Praha

lecturer

Dmitrij G. Medvedev, Belarusian State University, Nezavisimosti avenue, 4, 220030, Minsk

PhD (physics and mathematics), docent; dean of the faculty of mechanics and mathematics

References

  1. Vorobei V. V., Morozov E. V., Tatarnikov O. V. Raschet termonapryazhennykh konstruktsii iz kompozitsionnykh materialov. Moscow, 1992 (in Russ.).
  2. Durgarʼyan S. M. Temperaturnyi raschet ortotropnoi sloistoi plastinki pri uprugikh postoyannykh i koeffitsiente temperaturnogo rasshireniya, zavisyashchikh ot temperatury [Temperature calculation of the orthotropic layered plate with depending on the temperature the elastic constants and thermal expansion coefficient]. Izv. Akad. nauk Arm. SSR. Fiz.-mat. nauki. 1960. Vol. XIII, No. 2. P. 73–87 (in Russ.).
  3. Timoshenko S. P., Gudʼer Dzh. Teoriya uprugosti. Moscow, 1979 (in Russ.).
  4. Burmistrov E. F., Maslov N. M. Napryazheniya v ortotropnykh vrashchayushchikhsya diskakh peremennoi tolshchiny [Stresses in the orthotropic rotating disks of variable thickness]. Nekotorye zadachi teorii uprugosti o kontsentratsii napryazhenii i deformatsii uprugikh tel : collect. of sci. articles of the Saratov State Univ. named after N. G. Chernyshevsky. Saratov, 1970. Issue 5. P. 80 – 86 (in Russ.).
  5. Krasnov M. L., Kiselev A. I., Makarenko G. I. Integralʼnye uravneniya: zadachi i primery s podrobnymi resheniyami. Moscow, 2007 (in Russ.).
  6. Verlanʼ A. F., Sizikov V. S. Integralʼnye uravneniya: metody, algoritmy, programmy. Kiev, 1986 (in Russ.).
  7. Boyarshinov S. V. Osnovy stroitelʼnoi mekhaniki mashin. Moscow, 1973 (in Russ.).
Published
2017-12-03
Keywords: polar-orthotropic disc, inhomogeneous thermal field, temperature, ratio thermoelasticity, differential and integral equations, resolvent, radial and tangential stress components, radial displacement
How to Cite
Karalevich, U. V., & Medvedev, D. G. (2017). Solution of the axismmetric plane thermoelasticity problem for a polar-orthotropic disc of variable thickness in the rotating thermal field by Volterra integral equation of the second kind. Journal of the Belarusian State University. Mathematics and Informatics, 1, 47-52. Retrieved from https://journals.bsu.by/index.php/mathematics/article/view/737
Issue
No 1 (2017): Journal of the Belarusian State University. Mathematics and Informatics
Section
Theoretical and Applied Mechanics

The authors who are published in this journal agree to the following:

  1. The authors retain copyright on the work and provide the journal with the right of first publication of the work on condition of license Creative Commons Attribution-NonCommercial. 4.0 International (CC BY-NC 4.0).
  2. The authors retain the right to enter into certain contractual agreements relating to the non-exclusive distribution of the published version of the work (e.g. post it on the institutional repository, publication in the book), with the reference to its original publication in this journal.
  3. The authors have the right to post their work on the Internet (e.g. on the institutional store or personal website) prior to and during the review process, conducted by the journal, as this may lead to a productive discussion and a large number of references to this work. (See The Effect of Open Access.)