Effects of Si on the Ductile‐to‐Brittle Transition Behavior of As‐Cast Advanced High‐Strength Steels

Abstract: High Si concentrations in third‐generation advanced high‐strength steels (AHSS) are known to cause cracking in continuous cast slabs during cooling at temperatures below 300 °C. To investigate the mechanism connecting Si to this embrittlement, impact toughness tests are conducted on as‐cast Fe–0.2C–3.0Mn steels with 0.5, 1.5, and 3.0 wt% Si at temperatures between 100 and 400 °C. The propagation path of the cracks through the microstructure of the specimens is examined. The ductile‐to‐brittle transition (DBT) … Show more

“…If completely brittle fracture occurs, the CVN will be less than 10 J. [2,[24][25][26][27] Cui et al [26] showed that if brittle fracture occurs in steel during the Charpy impact process, only approximately 5 J is absorbed during the brittle crack propagation process. Therefore, the energy absorbed by brittle crack propagation is very low.…”

Relationship Between Microstructure, Delamination Behavior, and Toughness of Steel Plates Rolled in the Intercritical Region Under Variable Deformation

“…If completely brittle fracture occurs, the CVN will be less than 10 J. [2,[24][25][26][27] Cui et al [26] showed that if brittle fracture occurs in steel during the Charpy impact process, only approximately 5 J is absorbed during the brittle crack propagation process. Therefore, the energy absorbed by brittle crack propagation is very low.…”

Relationship Between Microstructure, Delamination Behavior, and Toughness of Steel Plates Rolled in the Intercritical Region Under Variable Deformation