exchange bias (EB) can be observed by the exchange coupling between the magnetic moments of an antiferromagnet (AFM) and those of a ferromagnet (FM) at an AFM/FM interface. there are many reasons to choose AFM materials for instances: the large exchange biasing field the high blocking temperature at which the exchange biasing disappears, good corrosion resistance, minimal critical thickness, and surface flatness. in this study, we systematically investigated the exchange anisotropy for ferromagnetic Co70Fe30 and antiferromagnetic Pt-Mn bilayer films by Co-sputtering method. we focused on the relevance between the exchange bias and the composition of PtxMn1-x (14<x<22 and 45<x<56 at %) films, and we successfully optimized the composition. the crystal structure of the PtxMn1-x films was FCC for 14<x<22 and FCT for 45<x<56 at % after annealing at 370 C for 6 hours. the unidirectional anisotropy constant (Jk) for FCC-Pt15Mn85 (20 nm) and FCT-Pt48Mn52 (20 nm) prepared under optimum conditions in composition were 0.16 and 0.20 erg/cm2, respectively. in addition to optimize the annealing temperature of the respective optimum compositions (Pt48Mn52, Pt15Mn85) we need to investigate the changes of Jk value as a function of annealing temperature. both Pt48Mn52 and Pt15Mn85 films showed the larger unidirectional anisotropy constant Jk than in other reports for the bilayer system that uses Pt-Mn antiferromagnetic layer. they also showed a flatter surface than that of other antiferromagnetic/ferromagnetic materials, which is suitable to avoid unexpected interlayer coupling in spin valve structure. the obtained Pt-Mn films with large exchange bias and slight roughness are useful as an antiferromagnetic layer in spintronic applications.