Effect of Dislocation Behavior on High Strength and High Ductility of Low Carbon-2%Si-5%Mn Fresh Martensitic Steel

Abstract: Commonly, plain carbon fresh martensitic steel shows high strength and breaking immediately. However, low C-2 wt.%Si-5 wt.%Mn fresh martensitic steel exhibits excellent strength and ductility. But it's not clear why 5 wt.%Mn martensitic steel has ductility more than plain carbon martensitic steel. In this study, the effect of C and Mn on strength and ductility is investigated by in-situ X-ray diffraction during tensile tests in SPring-8. The relationship between the work hardening behavior and the dislocation … Show more

“…Film-like residual austenite can hinder crack propagation and improve toughness [20]. Atsushi Ito et al [21] found that Mn reduces the rate of dislocation multiplication, thereby lowering the work hardening rate. A study by Zhang et al [22] indicated that increasing the oil bath temperature during quenching can increase the amount of retained austenite, and also improve toughness.…”

Heat Treatment Process, Microstructure, and Mechanical Properties of Spring Steel with Ultra-High Strength and Toughness

“…Film-like residual austenite can hinder crack propagation and improve toughness [20]. Atsushi Ito et al [21] found that Mn reduces the rate of dislocation multiplication, thereby lowering the work hardening rate. A study by Zhang et al [22] indicated that increasing the oil bath temperature during quenching can increase the amount of retained austenite, and also improve toughness.…”

Heat Treatment Process, Microstructure, and Mechanical Properties of Spring Steel with Ultra-High Strength and Toughness

Influence of Nitrogen Introduced by Solution Nitriding on Microstructure and Room-temperature Mechanical Properties of Grade 91 Steel