Title of article
Multiple-zone sliding contact with friction on an anisotropic thermoelastic half-space
Author/Authors
L.M. Brock ، نويسنده , , H.G. Georgiadis، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
17
From page
2820
To page
2836
Abstract
The paper studies a class of multiple-zone sliding contact problems. This class is general enough to include frictional
and thermal effects, and anisotropic response of the indented material. In particular, a rigid die (indenter) slides with Coulomb
friction and at constant speed over the surface of a deformable and conducting body in the form of a 2D half-space.
The body is assumed to behave as a thermoelastic transversely isotropic material. Thermoelasticity of the Green–Lindsay
type is assumed to govern. The solution method is based on integral transforms and singular integral equations. First, an
exact transform solution for the auxiliary problem of multiple-zone (integer n > 1) surface tractions is obtained. Then, an
asymptotic form for this auxiliary problem is extracted. This form can be inverted analytically, and the result applied to
sliding contacts with multiple zones. For illustration, detailed calculations are provided for the case of two (n = 2) contact
zones. The solution yields the contact zone width and location in terms of sliding speed, friction, die profile, and also the
force exerted. Calculations for the hexagonal material zinc illustrate effects of speed, friction and line of action of the die
force on relative contact zone size, location of maximal values for the temperature and the compressive stress, and the maximum
temperature for a given maximum stress. Finally, from our general results, a single contact zone solution follows as a
simple limit
Keywords
contact mechanics , Sliding contact problems , Thermal stresses , Anisotropic materials , Transverse isotropy , integral transforms , singular integral equations
Journal title
International Journal of Solids and Structures
Serial Year
2007
Journal title
International Journal of Solids and Structures
Record number
449056
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