G. Reumont et al., The effects of an Fe-Zn intermetallic-containing coating on the stress corrosion cracking behavior of a hot-dip galvanized steel, SURF COAT, 139(2-3), 2001, pp. 265-271
This study deals with the mechanical behavior of galvanized, interstitial f
ree (IF) steel in air and sodium chloride water. Tensile tests conducted in
air at different strain rates lead in general to a ductile behavior. It ca
n become brittle when tested in a NaCl solution at particular strain rate v
alues. Fractographic analysis shows a brittle fracture similar to hydrogen
embrittlement (AE). A detailed analysis taking into account both the indivi
dual mechanical strength of the phases on the coating as well as the electr
ochemical reaction between Zn and water allow the explanation of this embri
ttlement. Hydrogen can be produced and can penetrate the cracks formed insi
de the intermetallic phases of the coating during loading, thus, reaching t
he steel substrate. The HE of the IF steel, assisted by zinc dissolution an
d galvanized coating low toughness, appears to be the cause of the loss of
ductility observed in the presence of specific environmental conditions, st
rain rates and morphologies of the coating. (C) 2001 Elsevier Science B.V.
All rights reserved.