Synthesis of Nonequillbrium Materials by Laser Surface Modification

"Inherent rapid cooling in laser processing often produces novel materials due to nonequilibrium partitioning during solidification. This paper reports theoretical and experimental investigations on in situ alloy formation with extended solid solution.A mathematical model for determining the composition of metastable alloys and the effects of various process parameters on the composition of extended solid solution is presented. To model the nonequilibrium partitioning of solute in concentrated solution, rate equations and conservation of mass equations are used and an expression for nonequilibrium partition coefficients is derived for concentrated solution, which is realistic for laser alloying and cladding. Effect of rapid cooling on solute segregation is presented by deriving an expression for nonequilibrium partition coefficient.Experiments were performed with Ni-AI and Ni-Hf systems to obtain the composition of solute in the extended solid solution produced during laser cladding."