The effects of phosphorus on the hydrogen trapping at grain boundaries in low carbon steel

Interactions amongst segregants at the grain boundaries of a low alloy steel have been studied using the technique of Auger electron spectroscopy in the temperature range of 75G900 K. Segregation isotherms delineate three kinetically distinct regimes. The first of these is characterized by rapid cos

model for hydrogen trapping of particle-matrix interface was suggested, in which the large driving force for such hydrogen trapping was associated with the lowering of interfacial free energy. The effects of the character of the precipitated Tic-matrix interface on the hydrogen trapping behavior in

pressures between 15 and 150 torr. Gasification rates were measured using a high sensitivity microbalance. Since the average burn-off per rate determination was cu. 0.015%, all the necessary kinetic data could be obtained on one graphite sample, with a minimum amount of total burn-off. Gasification

It has been found that aging at room temperature or previous straining of hydrogen charged 1020 steel causes an internal friction peak at 105°K to appear, reach a maximum, decrease and finally disappear. This peak has been explained by a model which involves the dragging along of hydrogen atmosphere