This paper investigated the causes of the fractures carried out on a carbon steel pipe under hydrogen atmosphere in a naphtha crack plant. The 16-year pipe line was operated at~260(500°F) and 32kgf/cm^2 (455 psig) normally. There were four fractured sites that were all at heat affect zone along the pipe line. The cross-sections of the fractured pipes were flat and no plastic deformation phenomenon by visual observation. The GDS analysis showed the composition of the carbon steel pipe is according with ASTM A53 Gr.B,. There are decarburization phenomena around the fissures by optical microscope observation. The origin of the cracks initiated mostly from poor welding place. It is affected by the stress concentration along the weld and base metals. Besides, the hydrogen pipe was operated very close to the hydrogen attack limit according to Nelson Curves of API 941. We conjectured the pipe was fractured due to hydrogen attack at the imperfect weld inside the pipe wall.