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A note on the axially symmetrical punch problem*

Published online by Cambridge University Press:  26 February 2010

I. N. Sneddon
Affiliation:
The University, Glasgow, W.2.
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Extract

In a recent paper Segedin [1] has derived a solution of the problem in which a perfectly rigid punch in the form of a solid of revolution of prescribed shape with axis along the z-axis bears normally on the boundary z = 0 of the semi-infinite elastic body z ≥ 0, so that the area of contact is a circle whose radius is a. Segedin solves the problem by building up the solution in a direct way which avoids both the use of dual integral equations and the introduction of an awkward system of curvilinear coordinates. By introducing a kernel function K(ξ), Segedin derives new potentials of the form

where U(r, z, a) is the solution of the simplest punch problem (namely that of a flat-ended punch) satisfying the mixed boundary conditions

on the boundary z = 0. It can then be easily shown that, under wide conditions on K, the function Φ (r, z, a) satisfies the boundary conditions

provided that K(ξ) is chosen so that

Type
Research Article
Copyright
Copyright © University College London 1959

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References

1.Segedin, C. M., “The relation between load and penetration for a spherical punch”, Mathematika, 4 (1957), 156161.CrossRefGoogle Scholar
2.Whittaker, E. T. and Watson, G. N., Modern Analysis, 4th edition, (Cambridge, 1927), 229.Google Scholar
3.Copson, E. T., “On the problem of the electrified disc”, Proc. Edinburgh Math. Soc., 8 (1947), 1419.CrossRefGoogle Scholar