Detailed In Situ Hot Stage Transmission Electron Microscope Observations of the Localized Pinning of a Mobile Ferrite-Austenite Interface in a Fe-C-Mn Alloy by a Single Oxidic Particle

Journal Article (2020)
Author(s)

John Nutter (University of Sheffield)

W. Mark Rainforth (University of Sheffield)

S Van Der Zwaag (TU Delft - Novel Aerospace Materials)

Research Group
Novel Aerospace Materials
Copyright
© 2020 J. Nutter, W. M. Rainforth, S. van der Zwaag
DOI related publication
https://doi.org/10.1007/s11661-020-05824-y
More Info
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Publication Year
2020
Language
English
Copyright
© 2020 J. Nutter, W. M. Rainforth, S. van der Zwaag
Research Group
Novel Aerospace Materials
Issue number
8
Volume number
51
Pages (from-to)
3811-3818
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Abstract

The current study reports the detailed analysis of an observation of the local pinning of a slowly moving austenite-ferrite interface by a single nanosized oxidic particle. The observations were made during an in situ cyclic partial phase transformation experiment on a Fe-0.1C-1.0Mn alloy close to the inversion stage at which the interface migrates at a rather low velocity. The low velocity allowed capturing the interface pinning effect over a period of no less than 16 seconds. From our observations, it was possible to follow the progression of the pinning effect from the initial stages all the way through to the release of the interface. The pinning force exerted by the individual particle having a diameter of 140 nm on the austenite-ferrite interface was estimated as 175 nJ m−1, while the maximum pinning length was approximately 750 nm to either side of the particle, leading to an interface line tension of 170 nJ m−1. The observed pinning behavior is compared with the most relevant models in the literature.