2000/4000rpm Ti50Ni40Cu10 ribbons prepared by rapid solidification process were studied their transformation behavior, microstructure, precipitation hardening and shape memory effect (SME) properties. As-spun 2000rpm Ti50Ni40Cu10 ribbons are completely crystallized, but as-spun 4000rpm Ti50Ni40Cu10 ribbons are partially amorphous due to their thinner thickness leads to the higher degree of cooling rate. The crystallization behaviors of wavenumber Qp, the starting crystallization temperature Tx and the activation energy of crystallization Ea of as-spun 4000rpm ribbons are investigated and all are lower than those of binary TiNi thin films/ribbons, but higher than those of Ti50Ni25Cu25 thin films/ribbons. This feature indicates that the thermal stability of amorphous Ti50Ni50-xCux alloys is worse with the higher Cu content. Two B2↔B19’ phase transformations, instead of two stage B2↔B19↔B19’ are observed in both aged ribbons, which are caused by the quite different grain sizes existed inherently in ribbons. Nanoindentation tests indicate that precipitation hardening occurs and the hardness increment is 0.3GPa, which can decrease the plastic deformation and increase the SME strain in aged ribbons. Experimental results show the SME strain can reach above 5% in aged ribbons, indicating rather good shape memory properties exhibited in aged ribbons.