The heat rectification coefficient of a composition-graded system of the type AxB1−x, with A and B being theoretical materials, and composition x changing along the length of the system, is considered. By starting from a mathematical model for the thermal conductivity of the material λ in terms of temperature T and composition x, the influence of composition spatial distribution, heat flux, length of the system, and minimum of λ(T,x) on the rectification coefficient is explored. In some circumstances, a reversal in the direction of the rectification is observed for increasing heat flux.