The structures and mechanical properties of undirectionally solidified Sn-Zn eutectic alloys have been examined over the growth range 7㎜/h to 6,000㎜/h. The structures of undirectionally solidified Sn-Zn eutectic alloys were primarily broken-lamellar at growth rates below 760㎜/h and became fibrous at higher growth rates above that. At a growth rate 3,084㎜/h the structures were fibrouse only. There is no dendrites at any growth rates, but occasionally ribbon-like morphologies were seen. The under cooling increased parabolically with growth rate increase. The hardness of specimes increased with growth rates increase but heat-treated specimen decreased after growth rates 760㎜/h and became constant value. The effect of heat-treatment was good at lower growth rate. At room temperature tensile strength increased with growth rates up to R=990㎜/h and then tensile strength became near-constant value. The effect of heat-treatment was well at lower growth rate.