Inverse Model for the Solute Micro-Field Formation during Self-Propagating High Temperature Reaction

Abstract

A new thermodynamic description for the self-propagating high temperature synthesis (SHS - reaction) is presented in the inverse version. This description is worked out for the diffusion barrier, thickness of which is at the limit, i.e. its value is infinitesimally small. The solution to the diffusion equation delivered in the description can be easily extended for the diffusion barrier of a greater thickness. The Ni/Al multi-layers system is treated as a virtual eutectic alloy solidifying with the rate equal to that involved by the self-propagating reaction. It is suggested to inverse the curves obtained for solidification in order to characterize the melting completed by the formation of the AlNi - intermetallic phase required in the self-propagating synthesis.