Understanding ferrite deformation caused by austenite to martensite transformation in dual phase steels

Understanding ferrite deformation caused by austenite to martensite transformation in dual phase steels

Atreya, V. (TU Delft Team Maria Santofimia Navarro)
Bos, C. (TU Delft Team Jilt Sietsma; Tata Steel)
Santofimia, Maria Jesus (TU Delft Team Maria Santofimia Navarro)

2021

During the production of DP steels, the volume expansion and shape change accompanying the austenite to martensite transformation is accommodated by the deformation of surrounding ferrite grains. The extent of the deformation in ferrite grains ultimately affects the mechanical properties of DP steels. Using electron backscatter diffraction measurements, this study identifies the characteristics of martensite which govern the extent of transformation induced deformation of ferrite grains. It was found that small austenite grains tend to transform into martensitic variants having a close-packed plane parallel relationship with adjacent ferrite grains, thus achieving relatively easy slip transmission and resulting in a long-range deformation of ferrite grains. Ferrite grains can also exhibit a short-range deformation limited to the vicinity of the ferrite/martensite interface, which is primarily governed by martensite carbon content.

Electron backscattering diffraction (EBSD)
dual phases steels
martensitic phase transformation
plastic deformation
slip transmission

http://resolver.tudelft.nl/uuid:a3e251ff-a8b9-4dcd-b2a8-3f43ed06d206

https://doi.org/10.1016/j.scriptamat.2021.114032

1359-6462

Scripta Materialia, 202

Institutional Repository

journal article

© 2021 V. Atreya, C. Bos, Maria Jesus Santofimia