Influence of residual stresses on hydrogen embrittlement susceptibility of prestressing steels

The susceptibility to hydrogen of a X80 grade steel produced by a thermo-mechanical control process (TMCP) has been investigated by keeping straining notched specimens under continuous charging conditions. Hydrogen charging was carried out either in synthetic seawater under potentiostatic control at

## Abstract Recent opinions on the effect of nonmetallic inclusions, especially sulfides, on the nucleation of pits, stress corrosion cracks, and hydrogen‐induced cracks are reviewed. The nonmetallic inclusions present in steels as impurities adversely affect the corrosion resistance of steels. Th

Prestressing steels can be exposed in prestressed concrete structures in construction stage (ungrouted duct) to environmental conditions causing formation and growth of hydrogen induced cracks with brittle fracture of the steel. The risk of this hydrogen induced stress corrosion cracking can be mini

influence of a temper embrittling heat treatment on the intergranular stress corrosion susceptibility of an Fe-3 wt.o/, Ni alloy containing minor additions of tin or phosphorus has been investigated. Microanalysis of the grain boundary regions has been carried out using a scanning transmission elect

Abstmct-The grinding process is known to in&ice high m~nitudes of tensile residuai stresses beneath a surface which are responsible for development of cracks over the ground surface. In this paper, measurements of mouth opening displacement (MOD) values have been used to determine the influence of r