%0 Journal Article
%T Steady-State Stresses in a Half-Space Due to Moving Wheel-Type Loads with Finite Contact Patch
%J Scientia Iranica
%I Sharif University of Technology
%Z 1026-3098
%A Mofid, M.
%A Vafai, A.
%A Dehestani, M.
%D 2010
%\ 10/01/2010
%V 17
%N 5
%P -
%! Steady-State Stresses in a Half-Space Due to Moving Wheel-Type Loads with Finite Contact Patch
%K Moving load
%K Half-space
%K wave propagation
%K Contact patch
%R
%X In this paper, the steady-state stresses in a homogeneous isotropic half-space under a
moving wheel-type load with constant subsonic speed, prescribed on a nite patch on the boundary, are
investigated. Navier's equations of motion in 2D case were modied via Stokes-Helmholtz resolution
to a system of partial dierential equations. A double Fourier-Laplace transformation procedure was
employed to solve the system of partial dierential equations in a new moving reference system, regarding
the boundary conditions. The eects of force transmission from the contact patch to the half-space
have been considered in the boundary conditions. Utilizing a property of Laplace transformation leads
to transformed steady-states stresses for which inverse Fourier transformation yielded the steady-state
stresses. Considering two types of uniform and parabolic force transmission mechanism and a comparison
between the pertaining results demonstrated that the parabolic load transmission induce lower stresses
than the uniform one. Results of the problem for various speeds of moving loads showed that the stresses
increase as the moving loads' speeds increase to an extremum speed known as CIS. After the CIS speed,
stresses' absolute values decrease for higher speeds. Eventually CIS values for homogeneous half-spaces
with dierent material properties were obtained.
%U https://scientiairanica.sharif.edu/article_3159_a1d4390dd52b9b06ce911b2acbc7d332.pdf