Improving hydrogen induced cracking resistance of high strength acid-resistant submarine pipeline steels via trace-Mg treatment

Abstract

Hydrogen induced cracking (HIC) is one of the biggest service risks faced by high-strength acid-resistant submarine pipeline steel. In this work, we reported a low-carbon, low-cost and high-efficient method for remarkably improving HIC resistance of the high-strength acid-resistant submarine pipeline steels by trace-Mg treatment. The results showed that the non-metallic inclusions steels were obviously refined, softened, spheroidized and dispersed by trace-Mg treatment, the modified “core-shell” or like “core-shell” structure inclusions had a larger critical size for HIC initiation and a higher saturated hydrogen concentration, and then effectively trapping more hydrogen, dispersing hydrogen pressure and reducing the diffused hydrogen content, thus effectively improving the HIC resistance. With the further increasing of Mg contents, the inclusion modification would be weakened, the hydrogen trapping efficiency decreased, and the HIC susceptibility of the tested steel increased again. In the research range, the tested steels treated with 4 ppm Mg present the lowest HIC susceptibility.