Mechanics of Solids
A Journal of Russian Academy of Sciences

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Issues > Archive of Issues > 2003-1 > pp.75-85

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Total articles in the database:		11223
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V. I. Ostrik and A. F. Ulitko, "Contact problem for a rigid wedge and an elastic half-plane with adhesion and slip," Mech. Solids. 38 (1), 75-85 (2003)

Year

2003

Volume

Number

Pages

75-85

Title

Contact problem for a rigid wedge and an elastic half-plane with adhesion and slip

Author(s)

V. I. Ostrik (Sumy)
A. F. Ulitko (Kiev)

Abstract

Problems of contact interaction of a rigid cone or a wedge and an elastic half-space, with friction forces in the contact region neglected, were considered in [1-3]. Contact of a rigid and an elastic wedges with the initial contact point at the vertex was studied in [4].

In the case of contact with friction of two elastic (or an elastic and a rigid) bodies, the central part of the contact region may contain a zone of complete adhesion in which the ratio of the tangential stresses to the normal pressure does not exceed the friction coefficient. On the other part of the contact region near its boundary, sliding of the bodies is observed, with the tangential stresses and the normal pressure related by the Amonton (Coulomb) law.

For the investigation of contact with friction and partial adhesion an incremental method was proposed in [5, 6]. According to this approach, the stress state is calculated step-by-step as the contact region increases with the growth of the load, under the assumption of static equilibrium on each step. In contrast to the incremental method, a direct method of solving the problem was proposed in [7] on the basis of the fact that at all instants of loading, the stress field remains self-similar and the ratio of the dimensions of the adhesion and the slip regions remains constant. Similarity considerations can be used for stating boundary condition for the tangential displacements in the adhesion zone.

A contact problem for an elastic half-space penetrated by an indentor of polynomial profile, in particular, by a cone, was solved in [8], with friction forces, as well as adhesion and slip, in the contact region taken into account. An approximate solution of this problem was obtained under the condition that tangential stresses, being small, do not affect the distribution of the normal pressure in the contact region.

References

1.	A. E. H. Love, "Boussinesq's problem for a rigid cone," Quart. J. Math., Vol. 10, pp. 161-175, 1939.
2.	I. N. Sneddon, "Boussinesq's problem for a rigid cone," Proc. Cambridge Phil. Soc., Vol. 44, pp. 492-507, 1948.
3.	I. N. Sneddon, Fourier Transforms [Russian translation], Izd-vo Inostr. Lit-ry, Moscow, 1955.
4.	A. F. Ulitko and N. E. Kachalovskaya, "Contact interaction between a rigid and an elastic wedge with the initial single-point contact at their common vertex," Doklady NAN Ukrainy, No. 1, pp. 51-54, 1995.
5.	L. E. Goodman, "Contact stress analysis of normally loaded rough spheres," Trans. ASME. Ser. E.J. Appl. Mech., Vol. 29, No. 3, pp. 515-522, 1962.
6.	V. I. Mossakovskii, "Compression of Elastic Bodies with Adhesion," PMM [Applied Mathematics and Mechanics], Vol. 27, No. 3, pp. 418-427, 1963.
7.	D. A. Spence, "Self-similar solutions to adhesive contact problems with incremental loading," Proc. Roy. Soc. London, Ser. A. Vol. 35, No. 1480, pp. 55-80, 1973.
8.	D. A. Spence, "An eigenvalue problem for elastic contact with nite friction," Proc. Cambridge Phil. Soc., Vol. 73, No. 1, pp. 249-268, 1973.
9.	K. L. Johnson, Contact Mechanics [Russian translation], Mir, Moscow, 1989.
10.	Ya. S. Uflyand, Integral Transforms in Elasticity Problems [in Russian], Nauka, Leningrad, 1967.
11.	F. D. Gakhov, Boundary Value Problems [in Russian], Fizmatgiz, Moscow, 1963.
12.	B. Noble, Method Based of Wiener-Hopf Technique for the Solution of Partial Differential Equations [Russian translation], Izd-vo Inostr. Lit-ry, Moscow, 1962.
13.	M. V. Fedoryuk, Asymptotics: Integrals and Series [in Russian], Nauka, Moscow, 1987.
14.	L. A. Galin, Contact Problems in Elasticity [in Russian], Gostekhteorizdat, Moscow, 1953.

Received

15 September 2000

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