The Liquid state undercoolability and crystal growth kinetics of ternary Ni-5%Cu-5%Sn and Ni-10%Cu-10%Sn alloys are investigated by the glass fluxing method.In these two alloys,experimental maximum undercoolings of 304K(0.18T_L) and 286K(0.17T_L) are achieved and the dendritic growth velocities attain 39.8 and 25.1m/s,respectively.The transition of morphology from coarse dendrite into equiaxed structure occurs and the grain size of the a(Ni) phase decreases remarkably when the undercooling increases.Both the lattice constant and microhardness increase obviously with the enhancement of undercooling.The enrichment of Cu and Sn solute contents reduces the dendritic growth velocity,while enhances the lattice constant and microhardness of a(Ni)phase. The Liquid state undercoolability and crystal growth kinetics of ternary Ni-5% Cu-5% Sn and Ni-10% Cu-10% Sn alloys were investigated by the glass fluxing method. In these two alloys, experimental maximum undercoolings of 304K T_L) and 286K (0.17T_L) are achieved and the dendritic growth velocities attain 39.8 and 25.1m / s, respectively. The transition of morphology from coarse dendrite into equiaxed structure occurs and the grain size of the a (Ni) phase decreases remarkably when the undercooling increases.Both the constant and microhardness increase obviously with the enhancement of undercooling.The enrichment of Cu and Sn solute contents reduces the dendritic growth velocity, while enhances the lattice constant and microhardness of a (Ni) phase.