The Hydrogen Blistering Formed on the Surface of A333Gr6 Pipeline Steel Exposed to Wet H2S Solution

Shu Qi Zheng; Cheng Shuang Zhou; Li Qiang Chen; Chang Feng Chen

doi:10.4028/www.scientific.net/AMR.557-559.87

Paper Titles

Electrochemical Corrosion Characterization of As-Cast Mg-7Li Alloy
p.64

Microstructure and Mechanical Properties of Horizontal Continuous Casting Al-18%Si Alloy Billets
p.68

Experimental Study on the Mineral Processing of a Certain Low Grade Copper-Molybdenum Ore in XINJIANG
p.75

Study on Material Constant Values of Ti-6Al-4V-Rare Earth Titanium
p.80

The Hydrogen Blistering Formed on the Surface of A333Gr6 Pipeline Steel Exposed to Wet H₂S Solution
p.87

Corrosion Inhibition of 2-Mercaptobenzothiazole for Carbon Steel in Sulfuric Acid Solution
p.92

Effects of RE on Microstructure and Mechanical Properties of Low-Alloy Steel
p.96

Studies on Initial Stage of High Temperature Oxidation of Fe - 9 to 12%Cr Alloys in Water Vapour Environment
p.100

Effect of Rare Earth on High Temperature Properties of Heat-Resisting Steel
p.108

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 557-559The Hydrogen Blistering Formed on the Surface of...

The Hydrogen Blistering Formed on the Surface of A333Gr6 Pipeline Steel Exposed to Wet H₂S Solution

Abstract:

After Hydrogen-induced cracking (HIC) test, many hydrogen blisters appeared on the surface of A333Gr6 pipeline steel. The amount of hydrogen blistering depends on the sample location. The amount and area rate of the hydrogen blistering on the surface of A333Gr6 sample near the internal wall are more than those of the sample near the external wall. After the upper part of the hydrogen blisters were torn off, the fracture surfaces of the upper and lower parts of the blister were analyzed by scanning electronic microscopy (SEM) and energy dispersive spectroscopy (EDS). The cell segregation inclusion of alloying elements which contain Ca and Al sulfides and oxides were observed in most of the nucleation sites of hydrogen blisters. The result shows that the dislocations and the increasing vacancy concentration are the main reasons to form hydrogen cavities in the nucleation sites. The hydrogen pressure which exceeds the strength of the materials will cause the formation of hydrogen blister.