For thin metal films with a body-centered-cubic (bcc) crystal structure produced by magnetron-type direct current sputtering, the Ar gas pressure applied during the sputtering process is closely related to the internal stress of the sputtered film. In this paper, the stress and lattice spacing of Fe thin films deposited by TFT sputtering method under various gas pressures were investigated in detail using X-ray diffraction, and the following results were obtained. Fe thin films deposited at low gas pressure using Pyrex glass and mylar thin film substrates had larger lattice spacing than standard bulk Fe specimens. At high gas pressure, they exhibited almost the same lattice spacing (a=0.2866 nm) as bulk specimens. Thin film stress values as a function of PAr for Fe thin films deposited on Pyrex glass substrates in the presence of a transition acting pressure. The lower part is dominated by compressive stress, while the upper part is dominated by tensile stress.