Thermoelasticity without energy dissipation for initially stressed bodies.
Wang, Jun, Slattery, Susan Palmer (2002)
International Journal of Mathematics and Mathematical Sciences
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Displaying similar documents to “A constitutive formulation for the linear thermoelastic behavior of arbitrary fiber-reinforced composites.”
Thermoelasticity without energy dissipation for initially stressed bodies.
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Temperature dependence of the effective and internal stresses at the initial stages of plastic deformation of the LiF single crystals. macrodeformation and dislocation mobility data
L. S. Fomenko, H.-J. Kaufmann, S. V. Lubenets, E. I. Ostapchuk (1991)
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Molecular modelling of stresses and deformations in nanostructured materials
Gwidon Szefer (2004)
International Journal of Applied Mathematics and Computer Science
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A molecular dynamics approach to the deformation and stress analysis in structured materials is presented. A new deformation measure for a lumped mass system of points is proposed. In full consistency with the continuum mechanical description, three kinds of stress tensors for the discrete system of atoms are defined. A computer simulation for a set of 10^5 atoms forming a sheet undergoing tension (Case 1) and contraction (Case 2) is given. Characteristic microstress distributions evoked...