Formation of Plastic Zones near Spherical Cavity in Hardened Low-Carbon Steels under Conditions of Hydrogen Stress Corrosion

“…Usually, increasing the concentration of acidic media increases the tendency of steel to brittle fracture [17][18][19][20]. Water solutions of hydrochloric, sulfuric, and other acids with various additives (flood stimulators), as well as solutions containing hydrogen sulfide are used mainly as flood-reducing media [17][18][19][20]. To determine the effect of the concentration of electrolyte solutions on the sensitivity of steel to corrosion fracture, samples made of 80С (80C) steel were tested in aqueous solutions of H 2 SO 4 and HCl of different concentrations at the same level of tensile stresses σ Э = 0.6 σ B MPa.…”

“…In accordance with a certain pre-fracture time characterizing each stress level, full-scale samples made of steel 20ГС2 (20GS2) were subjected to a complex and separate influence of various factors in special corrosion chamberscorrosion medium, tensile stresses, cathodic polarization from an external current source at different holding times up to the pre-fracture [17][18][19]. Also, in the process of holding steel 20ГС2 (20GS2) in a corrosive medium (in the study of the process of stress corrosion cracking), the temperature of the medium was changed.…”

On the Influence of Internal and External Factors on the Processes of Corrosion-Mechanical Fracture of High-Strength Low-Alloy Steels

“…Usually, increasing the concentration of acidic media increases the tendency of steel to brittle fracture [17][18][19][20]. Water solutions of hydrochloric, sulfuric, and other acids with various additives (flood stimulators), as well as solutions containing hydrogen sulfide are used mainly as flood-reducing media [17][18][19][20]. To determine the effect of the concentration of electrolyte solutions on the sensitivity of steel to corrosion fracture, samples made of 80С (80C) steel were tested in aqueous solutions of H 2 SO 4 and HCl of different concentrations at the same level of tensile stresses σ Э = 0.6 σ B MPa.…”

“…In accordance with a certain pre-fracture time characterizing each stress level, full-scale samples made of steel 20ГС2 (20GS2) were subjected to a complex and separate influence of various factors in special corrosion chamberscorrosion medium, tensile stresses, cathodic polarization from an external current source at different holding times up to the pre-fracture [17][18][19]. Also, in the process of holding steel 20ГС2 (20GS2) in a corrosive medium (in the study of the process of stress corrosion cracking), the temperature of the medium was changed.…”

On the Influence of Internal and External Factors on the Processes of Corrosion-Mechanical Fracture of High-Strength Low-Alloy Steels

“…Функция ρ а задана в неявном виде. При установлении вида зависимости использовали результаты мысленного эксперимента, когда силовые линии проходят мимо сферической полости радиусом a = l. Силовая линия с при-цельным расстоянием b пересекает плоскость z = 0 на расстоянии ρ 1 от центра сферы, причём, согласно ранее полученному результату [11]…”

“…Как объёмный объект описанные зоны пластичности представляют собой поверхности сфероида и эллипсоида, окружающие сферические и линзообразные поры. При l/a, близких к единице (например, в случае l = 0,8a), сечение такой поры близко к сечению, полученному ранее [11] для случая пор сферической формы (формально это случай l/a = 1, h/a = 1). Очевидно, что чем меньше отношение h/l для поры, тем дальше в поперечном направлении распространяется зона пластичности (больше ρ max -l), становясь при этом всё более узкой (z 1 примерно пропорциональна h).…”

“…Вместе с ростом радиальных трещин к их вершинам от поры, находящейся под высоким давлением, ускоренно диффундируют газы. Считали, что образование кольцеобразных трещин на периферии поры является результатом концентрации напряжений на сферическом фронте встречных газовых потоков: водорода извне и газов от поры [11].…”

The Morphology of the Volume Plasticity Zones at the Gas-Filled Pores in Cast and Powder Steels under Stress Corrosion