Mechanical Behavior of High-Strength Low-Alloy Steels

© 2019 by the authors; CC BY license

brittle fracture; property degradation; mechanical properties; failure analysis; 55NiCrMoV7; corrosion; cable wires; hydrogen-induced cracking; hierarchical Bayesian inference; correlation model; maintenance interventions; HSLA steel; API X52; gas pipeline; microstructure; neutron diffraction; strength; stress corrosion cracking; atmospheric corrosion; weathering steel; experimental tests; corrosion losses; deposition rate of chlorides; fracture resistance; Charpy impact test; J-R curve; dislocation; precipitate; high-strength X80 steel; buried pipeline; strike-slip fault; strain-based design; compressive strain capacity; local buckling; finite element method; stress corrosion cracking; localized corrosion; pre-stressed concrete; hydrogen embrittlement; API X80 steel; strain-hardening exponent; high-frequency hot-induction bending; thermal treatments; steel; fracture mechanics; tensile test; cohesive zone model; internal damage; XRCT; Ferrite–martensite dual-phase (FMDP) steel; dynamic tensile testing; dislocation multiplication; adiabatic heating; failure mechanism; dual phase steel; annealing; volume fraction of secondary phase; grain size; strain-hardening exponent; yield strength; ultimate tensile strength; properties prediction; combined defect; gas pipeline; mechanical damage; failure pressure; finite element method; low-cycle fatigue; cyclic behaviour; strain energy density; bainite; carbide; n/a