2021
DOI: 10.3390/ma14185358
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Enhancing Strain Capacity by the Introduction of Pearlite in Bainite and Polygonal Ferrite Dual-Phase Pipeline Steel

Abstract: In this study the strain capacity and work-hardening behavior of bainite (B), bainite + polygonal ferrite (B + PF), and bainite + polygonal ferrite + pearlite (B + PF + P) microstructures are compared. The work hardening exponent (n), instantaneous work hardening value (ni), and differential Crussard-Jaoul (DC-J) analysis were used to analyze the deformation behavior. The best comprehensive mechanical properties were obtained by the introduction of the pearlite phase in B + PF dualphase with the tensile streng… Show more

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Cited by 3 publications
(1 citation statement)
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“…Depending on the specific lamellae spacing and C content, widely varying trapping energies between 11 and 80 kJ mol are reported [42][43][44], resulting in a mixed classification as both shallow and deep traps. However, it is reported that introducing pearlite into a ferritic-bainitic dual-phase steel resulted in improved resistance to HE [45].…”
Section: Cavitiesmentioning
confidence: 99%
“…Depending on the specific lamellae spacing and C content, widely varying trapping energies between 11 and 80 kJ mol are reported [42][43][44], resulting in a mixed classification as both shallow and deep traps. However, it is reported that introducing pearlite into a ferritic-bainitic dual-phase steel resulted in improved resistance to HE [45].…”
Section: Cavitiesmentioning
confidence: 99%