Phase equillibria and solidification behaviour in the vanillin-p-anisidine system

Phase diagram of the vanillin-p-anisidine system has been studied by the thaw melt method. Congruent melting-type phase diagram exhibiting two eutectic points was obtained. Vanillin and p-anisidine react in 1:1 M ratio and form N-(4-methoxy phenyl)-4-hydroxy-3-methoxy phenyl methanimine (NHM) and water. Heats of fusion of pure components and the eutectic mixtures (E-1 and E-2) were obtained from DSC Studies. Jackson's roughness parameters (alpha) were calculated. Excess Gibbs free energy (G(E)),excess entropy (S-E) and excess enthalpy (H-E) of mixing of pre-, post-and eutectic mixtures were also calculated by using activity coefficient data. Linear velocities of solidification of components and eutectic mixtures were determined at different undercoolings. The values of excess thermodynamic functions and linear velocity data have indicated the non-ideal nature of the eutectic mixtures. Interaction energies in the gaseous state, Calculated from computer simulation, have also indicated that the eutectics are non-ideal mixtures. Microstructural studies of vanillin, p-anisidine and NHM show the formation of broken lamellar type structures. However, for the eutectic E-1, an irregular type and for the eutectic E-2, a lamellar type structures were obtained. The effect of impurity on the microstructures of eutectic mixtures was also studied. (C) 2008 Elsevier Ltd All rights reserved.