Starting from Laval's expression for the first-order thermal diffuse scattering (TDS₁), a new expression for the inversion temperature of TDS₁, T_max = mΘ_D²d²_hklk/3h², has been obtained, valid for a crystal of any symmetry. T_max is attained when (u²)bar above^1/2/d_hkl = 16%. Every crystalline substance has a definite range where the above formula holds: the upper limit is T_mp and the lower limit is Θ_D. The melting temperature defines a d_max for which the inversion phenomenon can be observable. The inversion curves of TDS₁ have been calculated for some metallic, ionic and molecular crystals. It is shown that KCl, Pb and Al, for which the inversion phenomenon has been reported, are not special cases. In molecular crystals this effect will be observable mainly at low temperatures. A method is given for determining Debye characteristic temperatures of crystals of any symmetry. This method is tested using Cartz's experimental T_max for lead.