• Griesche, A.; Dabah, E.; Kannengiesser, T.; Hilger, A.; Kardjilov, N.; Manke, I.; Schillinger, B.: Measuring hydrogen distributions in iron and steel using neutrons. Physics Procedia 69 (2015), p. 445-450

10.1016/j.phpro.2015.07.062
Open Access Version

Abstract:
Neutron tomography has been applied to investigate the mechanism of hydrogen assisted cracking in technical iron and supermartensitic steel. Rectangular technical iron block samples showed blistering due to intense hydrogen charging and the tomographic method revealed in situ the spatial distribution of hydrogen and cracks. Hydrogen accumulated in a small region around cracks and the cracks are filled with hydrogen gas. Cracks close to the surface contained no hydrogen. Hydrogenous tensile test samples of supermartensitic steel were pulled until rupture and showed hydrogen accumulations at the notch base and in the plastically deformed region around the fracture surface.