The corrosion cracking behavior of A516 carbon steel weld, by submerged arc welding, in hydrogen sulfide containing NACE solution was investigated. Submerged arc welding with beat inputs of 15, 30, 45 and 60 KJ/cm were applied. The slow strain rate testing (SSRT) technique was used to evaluate the corrosion cracking susceptibility. The strength of the weld in air was found to vary inversely proportional to the welding heat input. A significant reduction of the ductility, based on the elongation ration, was observed for all the specimens tested in hydrogen sulfide containing solutions. The results also indicated that the specimens made from the top of welds were most susceptible to corrosion cracking as compared to those prepared from the middle and the bottom of the welds. Cleavage type of fracture was observed, revealing the empbrittlement effect of hydrogen. Primary or secondary cracks were also observed in the welds propagating along the grain boundary ferrite indicating the relative high resistance of the accicular ferrite to sulfide stress corrosion cracking (SSCC).