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IssuesArchive of Issues2006-6pp.64-79

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N. V. Zharkova and L. V. Nikitin, "Applied problems in the dynamics of elastic rods," Mech. Solids. 41 (6), 64-79 (2006)
Year 2006 Volume 41 Number 6 Pages 64-79
Title Applied problems in the dynamics of elastic rods
Author(s) N. V. Zharkova (Moscow)
L. V. Nikitin (Moscow)
Abstract Rod is one of the most widespread elements of various structures. It is the simplest model of many engineering devices such as shafts, valves, piles, columns, poles, pivots, bolts, strings, cables, bars, etc. The relative simplicity of the mathematical description of mechanical behavior of rods draws the attention of researchers from various fields of science and engineering.

The present paper, which is partly of survey character, deals with the solution of applied problems of rod dynamics, which have various applications in physics and engineering.

The main problem considered here is the problem on the dynamics of an elastic rod one of whose ends is subjected to a mass impact and on whose other end, depending on the character of applications, either the displacement (a rigid restraint), or the stress-displacement relation (an elastic restraint), or the critical stress (a rigid-plastic restraint) is specified. In some problems, we take into account the force of gravity and dry friction interaction of the lateral surface with the ambient medium.

Boussinesq and Saint-Venant were the first to consider this kind of problems. They analyzed an impact of a rigid body against an end of an elastic rod whose other end is rigidly fixed. Their results are presented in numerous monographs, e.g., by Love and Timoshenko [1, 2, 3].

In the present paper, we give the solution of this problem for arbitrary time and refine the rebound time of the mass from the rod. In addition, in this problem we take into account the force of gravity acting on the rod and the rigid body and the dry friction drag on the lateral surface.

As a development of Boussinesq's and Saint-Venant's studies, the problem on a die-forging hammer was considered. The hammer is modeled by a rod; one of its ends is subjected to impact by a piston accelerated to some velocity, and the billet to be forged is placed at the other end.

In the simplest case, this problem was stated and approximately solved in the paper [4] so as to evaluate the stresses originating in the shaft. The exact solution of this problem obtained in [5] was extended to the cases of elastic and rigid-plastic billets. Judging by the numerous subsequent publications (e.g., [6]) dealing with this problem, the paper [5] passed unnoticed. The problem on the impact of an engine valve against the seat (an elastic restraint), posed and considered in [7], is a special case of this problem.
References
1.  A. E. Love, A Treatise on the Mathematical Theory of Elasticity [Russian translation], Gostekhizdat, Moscow, Leningrad, 1935.
2.  S. P. Timoshenko and J. N. Goodier, Elasticity Theory [Russian translation], Nauka, Moscow, 1975.
3.  S. P. Timoshenko, D. H. Young, and W. Weaver, Vibration Problems in Engineering [Russian translation], Mashinostroenie, Moscow, 1985.
4.  E. P. Unksov, Experimental Determination of Stresses in Rods of Die-Forging Hammers [in Russian], Mashgiz, Moscow, 1945.
5.  L. V. Nikitin, "To the design of rods of die-forging hammers," Inzh. Zh., No. 3, pp. 185-188, 1961.
6.  V. P. Maiboroda, A. S. Kravchuk, and N. N. Kholin, Dynamic Deformation of Structural Materials [in Russian], Mashinostroenie, Moscow, 1986.
7.  E. A. Werner and F. D. Fischer, "The stress state in a moving rod suddenly elastically fixed at its trailing end," Acta Mech., Vol. 111, No. 3/4, pp. 171-179, 1995.
8.  L. V. Nikitin, Statics and Dynamics of Solids with External Dry Friction [in Russian], Moskovskii Litsei, Moscow, 1998.
9.  M. A. Lavrentev and B. V. Shabat, Methods of the Theory of Functions of One Complex Variable [in Russian], Fizmatgiz, Moscow, 1958.
10.  V. A. Ditkin and A. P. Prudnikov, Operational Calculus [in Russian], Vysshaya Shkola, Moscow, 1975.
11.  L. V. Nikitin, "Dynamics of Elastic Rods with External Dry Friction," Usp. Mekh., Vol. 11, No. 4, pp. 53-106, 1988.
12.  B. Hu and P. Eberhard, "Symbolic Computation of Longitudinal Impact Waves," Computer Meth. Appl. Mech. and Eng., Vol. 190, No. 37-38, pp. 4805-4815, 2001.
13.  N. M. Gersevanov, "Theory of longitudinal elastic impact with application to determination of pile resistance," in Collected Works. Volume 1 [in Russian], pp. 70-94, 1948.
14.  L. V. Nikitin, "Impact by a rigid body against an elastic rod with external dry friction," Inzh. Zh. MTT, No. 2, pp. 166-170, 1967.
15.  L. V. Nikitin and A. N. Tyurekhodgaev, "Wave propagation and vibration of elastic rods with interfacial frictional slip," Wave Motion, Vol. 12, No. 6, pp. 513-526, 1990.
16.  L. V. Nikitin and A. N. Tyurekhodzhaev, "Behavior of an elastic rod penetrating into soil under load," in Problems of Rock Mechanics [in Russian], pp. 304-311, Nauka, Alma-Ata, 1966.
17.  N. A. Veklich and B. M. Malyshev, "Wave propagation in elastic rods sitting in a medium with dry friction," in Problems of Solid Mechanics [in Russian], pp. 64-99, Izd-vo MGU, Moscow, 1985.
18.  D. Kolymbas, "Longitudinal impacts on piles," Dynamics and Earthquake Engineering, Vol. 10, No. 5, pp. 264-270, 1991.
19.  F. Rausche, G. Goble, and G. E. Links, "Dynamic determination of pile capacity," Geomechanical Engineering, pp. 367-383, 1985.
20.  J. Grabe and U. Schuler, "Auswertung von dynamischen Pfahlprüfungen nach verschiedenen Verfahren," Geotechnik, No. 1, pp. 37-41, 1991.
Received 14 September 2006
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