JAM 1979 Abstract
A Steadily Moving Load on an Elastic
Beam Resting on a Tensionless Winkler Foundation
J. Choros and G.G. Adams
Summary
An infintely long Euler-Bernoulli beam resting on a tensionless Winkler foundation is
considered. Steady-state solutions are obtained for a downward directed concentrated
force moving with constant speed. First, the critical load necessary to initiate
separation of the beam from the foundation is determined for a range of speeds. For
loads greater than critical, one or more regions of noncontact can be expected to occur.
Closed-form solutions of the differential equations are obtained in terms of local
coordinate systems which significantly reduces the coupling among the various regions.
The extent and loction of the noncontact regions, as well as the corresponding beam
deflections, are then determined for a range of force and speed. The results show that
many solutions are possible and the final determination is based on an energy criterion.
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