Superior Comprehensive Mechanical Properties of a Low-Carbon Medium Manganese Steel for Replacing AISI 4330 Steel in the Oil and Gas Industry

Abstract: A low-carbon medium manganese steel (0.12C-3.13Mn) containing Cr, Ni, Mo, V, and Cu elements was designed to replace the AISI 4330 steel applied in the oil and gas industry. The mechanical properties, microstructures, and fatigue crack growth rate were comparatively analyzed using uniaxial tension tests, microstructure characterization, and compact tension with fatigue crack growth characterization. The results showed that the ductility and −40 °C impact energy of 0.12C-3.13Mn steel were better than AISI 4330 … Show more

“…Corrosion behavior in low-carbon steel has been extensively studied, considering factors such as grain size, microstructures, and alloying elements in different media [7,9,10,12,[14][15][16]. Low-carbon steel with alloying elements generally exhibits favorable mechanical and corrosion resistance properties, showing superior corrosion resistance than high-carbon steel because of high-density precipitates and induced chemical stability [17][18][19][20]. The nature of grain boundaries and alloying elements is crucial in deciding the corrosion behavior of metals, as the presence of impurities can easily in uence them [21].…”

IF steel: grain boundary nature and its aqueous corrosion behavior

“…Corrosion behavior in low-carbon steel has been extensively studied, considering factors such as grain size, microstructures, and alloying elements in different media [7,9,10,12,[14][15][16]. Low-carbon steel with alloying elements generally exhibits favorable mechanical and corrosion resistance properties, showing superior corrosion resistance than high-carbon steel because of high-density precipitates and induced chemical stability [17][18][19][20]. The nature of grain boundaries and alloying elements is crucial in deciding the corrosion behavior of metals, as the presence of impurities can easily in uence them [21].…”

IF steel: grain boundary nature and its aqueous corrosion behavior