Effects of cooling processes on microstructure and susceptibility of hydrogen-induced cracking of X80 pipeline steel

The effects of three different kinds of cooling processes on the properties of the microstructure for hydrogen-induced cracking (HIC) resistance and hydrogen atom diffusion on X80 pipeline steel have been investigated in the laboratory. The results show that Steel F after furnace cooling contains coarse polygonal ferrite (PF), quasi-polygonal ferrite (QF), and a small amount of granular bainite (GB). Steel A after air cooling contains finer QF and GB. Steel W after water cooling quenching treatment contains a large amount of GB, lath bainite (LB), and a small amount of martensite (M) and ferrite. In addition, the results of hydrogen permeation test show that hydrogen atoms diffuse the fastest in Steel W with a finer microstructure and grains, and the content of dissolved hydrogen atoms is lowest in Steel F. After soaking corrosion tests, Steel A has the best HIC resistance properties, due to the role of more high-angle grain boundaries (HABs) and fewer grain boundaries with the <100> orientation.