Effect of Crack-Tip Stresses on Stress Corrosion Cracking Behavior

Abstract: It is well documented that the applied load for a given material/environment system has a significant effect on the stress corrosion cracking (SCC) behavior in terms of K ISCC values as well as on the K-da/dt relation. Traditionally, the role of crack-tip stress has not received proper attention but rather the crack-tip strain that is supposedly critical in cracking the passive oxide exposing the fresh metal surface at the crack tip to the environment. This article discusses a different point of view pertinent… Show more

“…Unlike traditional continuum mechanics approaches, the peridynamic model describes the material behavior in terms of interactions between points (or particles) within a material, rather than relying on differential equations. This allows for a more accurate representation of crack initiation, propagation, and branching, as well as the ability to capture the influence of stress fields around the crack tip [ 170 ]. Dennj [ 171 ] presents a numerical Multiphysics peridynamic framework for modeling adsorbed-hydrogen stress-corrosion cracking (SCC) in a polycrystalline AISI 4340 high-strength low-alloy (HSLA) thin, pre-cracked steel plate.…”

Prognosis methods of stress corrosion cracking under harsh environmental conditions

“…Unlike traditional continuum mechanics approaches, the peridynamic model describes the material behavior in terms of interactions between points (or particles) within a material, rather than relying on differential equations. This allows for a more accurate representation of crack initiation, propagation, and branching, as well as the ability to capture the influence of stress fields around the crack tip [ 170 ]. Dennj [ 171 ] presents a numerical Multiphysics peridynamic framework for modeling adsorbed-hydrogen stress-corrosion cracking (SCC) in a polycrystalline AISI 4340 high-strength low-alloy (HSLA) thin, pre-cracked steel plate.…”

Prognosis methods of stress corrosion cracking under harsh environmental conditions

“…Environmentally assisted crack growth refers to an enhancement in crack growth that takes place due to a stress-enhanced chemical reaction at the highly strained region near a crack tip [11,[109][110][111][112]. In particular, when exposed to water, HA exhibits higher susceptibility to slow crack growth than in air as indicated by n values of 10 ± 4, 11.3, 11 measured in water, which are lower than the n values measured in ambient air (n = 22.5 ± 2, 19.8, 23) [17,20,21].…”

Slow growth of microcracks in hydroxyapatite during aging

Insight into stress corrosion cracking in heat-affected zone of Nb micro-alloyed high-strength low-alloy steel in SO2-polluted seawater