Torsion of a growing shaft

A. V. Manzhirov; M. N. Mikhin; E. V. Murashkin

Geodesic

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Torsion of a growing shaft

A. V. Manzhirov ; M. N. Mikhin ; E. V. Murashkin

Journal of Samara State Technical University, Ser. Physical and Mathematical Sciences, Tome 21 (2017) no. 4, pp. 684-698.

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Résumé

The torsion of a shaft by rigid disks is considered. The shaft has the form of circular cylinder. Two rigid disks are attached to its end faces. The process of continuous growth of such shaft under the influence of twisting torques applied to the disks is studied. Dual series equations which reflect the mathematical content of the problem at the different stages of the growing process are derived and solved. Results of the numerical analysis and singularities of the qualitative mechanical behaviour of the fundamental characteristics are discussed.

Keywords: growth, shaft, shape, stress-strain state.
Mots-clés : torsion

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A. V. Manzhirov; M. N. Mikhin; E. V. Murashkin. Torsion of a growing shaft. Journal of Samara State Technical University, Ser. Physical and Mathematical Sciences, Tome 21 (2017) no. 4, pp. 684-698. http://geodesic.mathdoc.fr/item/VSGTU_2017_21_4_a5/

Bibliographie
Cité par

[1] Arutiunian N. Kh., Manzhirov A. V., Naumov V. E., Kontaktnye zadachi mekhaniki rastushchikh tel [Contact problems of the mechanics of growing bodies], Nauka, Moscow, 1991, 176 pp. (In Russian) | MR

[2] Arutiunian N. Kh., Manzhirov A. V., Kontaktnye zadachi teorii polzuchesti [Contact problems of the theory of creep], Institute of Mechanics, NAS RA, Erevan, 1999, 320 pp. (In Russian)

[3] Manzhirov A. V., “The general non-inertial initial-boundary value problem for a viscoelastic ageing solid with piecewise-continuous accretion”, J. Appl. Math. Mech., 59:5 (1995), 805–816 | DOI | MR | Zbl

[4] Manzhirov A. V., “Mechanics of growing solids and phase transitions”, Key Engineering Materials, 535–536 (2013), 89–93 | DOI

[5] Manzhirov A. V., “Mechanics of growing solids: New track in mechanical engineering”, ASME 2014 International Mechanical Engineering Congress and Exposition, Volume 9: Mechanics of Solids, Structures and Fluids (Montreal, Quebec, Canada, November 14–20, 2014), ASME, 2014, IMECE2014-36712, V009T12A039 | DOI

[6] Manzhirov A. V., “Advances in the Theory of Surface Growth with Applications to Additive Manufacturing Technologies”, Procedia Engineering, 173 (2017), 11–16 | DOI

[7] Manzhirov A. V., Gupta N. K., “Fundamentals of Continuous Growth Processes in Technology and Nature”, Procedia IUTAM, 23 (2017), 1–12 | DOI

[8] Manzhirov A. V., “Mechanical design of viscoelastic parts fabricated using additive manufacturing technologies”, Lecture Notes in Engineering and Computer Science, Proceedings of The World Congress on Engineering 2015, WCE 2015 (London, U.K., July 1–3, 2015), v. 2, IAENG, 2015, 710–714 http://www.iaeng.org/publication/WCE2015/WCE2015_pp710-714.pdf

[9] Manzhirov A. V., “A method for mechanical design of am fabricated viscoelastic parts”, Transactions on Engineering Technologies, Springer, Singapore, 2016, 223–235 | DOI

[10] Manzhirov A. V., “Fundamentals of mechanical design and analysis for am fabricated parts”, Procedia Manufacturing, 7 (2017), 59–65 | DOI

[11] Sneddon I. N., Srivastav R. P., Mathur S. C., “The Reissner-Sagoci problem for a long cylinder of finite radius”, Q. J. Mechanics Appl. Math., 19:2 (1966), 123–129 | DOI | MR | Zbl

[12] Srivastav R. P., “Dual series relations. II. Dual relations involving Dini Series”, Proc. R. Soc. Edinb. Sec., 66:3 (1963), 161–172 | DOI | MR

[13] Watson G. N., A Treatise on the Theory of Bessel Functions. Second Edition, Cambridge University Press, London, 1966, vii+804 pp. | MR | Zbl

[14] Sneddon I. N., Srivastav R. P., “Dual series relations. I. Dual relations involving Fourier-Bessel series”, Proc. R. Soc. Edinb. Sec. A, 66:3 (1963), 150–160 | DOI | MR

[15] Srivastav R. P., “Dual series relations. III. Dual relations involving trigonometric series”, Proc. R. Soc. Edinb. Sec. A, 66:3 (1963), 173–184 | DOI | MR

[16] Cooke J. C., “The solution of triple and quadruple integral equations and Fourier-Bessel Series”, Q. J. Mechanics Appl. Math., 25:2 (1972), 247–263 | DOI | MR | Zbl

[17] Sneddon I. N., Tait B. J., “The effect of a penny-shaped crack on the distribution of stress in a long circular cylinder”, Int. J. Eng. Sc., 1:3 (1963), 391–409 | DOI | MR

[18] Polyanin A. D., Manzhirov A. V., Handbook of Integral Equations. Second Edition, Chapman Hall/ CRC Press, Boca Raton, London, 2008, xxxiv+1108 pp. | MR

[19] Manzhirov A. V., “Mechanical design of am fabricated prismatic rods under torsion”, MATEC Web of Conf., 95 (2017), 12002 | DOI