Discrete and Continuum Thermomechanics

Anton M. Krivtsov, Vitaly A. Kuzkin

Published 2017-07-29Version 1

In the present chapter, we discuss an approach for transition from discrete to continuum description of thermomechanical behavior of solids. The transition is carried out for several anharmonic systems: one-dimensional crystal, quasi-one-dimensional crystal (a chain possessing longitudinal and transversal motions), two- and tree-dimensional crystals with simple lattice. Macroscopic balance equations are derived from equations of motion for particles. Macroscopic parameters, such as stress, heat flux, deformation, thermal energy, etc., are represented via parameters of the discrete system. Closed form equations of state relating thermal pressure, thermal energy and specific volume are derived. Description of the heat transfer in harmonic approximation is discussed. Unsteady ballistic heat transfer in a harmonic one-dimensional crystal is considered. The heat transfer equation for this system is rigorously derived.