1. Microstructure Representation of Steels by Means of Ferrofluids
- Author
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Matthias Oechsner, O. Kerbs, Holger Hoche, and Jasmin Biehler
- Subjects
Austenite ,Ferrofluid ,Acicular ,Materials science ,Condensed matter physics ,Metallurgy ,Metals and Alloys ,Condensed Matter Physics ,Microstructure ,Electronic, Optical and Magnetic Materials ,Paramagnetism ,Ferromagnetism ,Mechanics of Materials ,Martensite ,Electron backscatter diffraction - Abstract
The metastable austenitic steels 1.4307 and 1.4404 are characterized by a fcc lattice with paramagnetic properties which can be transformed by cold forming to ferromagnetic bcc martensite with acicular structures via a defect-rich intermediate stage. However, using classical wetchemical etching methods, defects and bcc martensite can visually not be clearly distinguished. Usually, magnetic or X-ray diffraction methods are used to quantify the ferromagnetic fractions. However, they do not allow for imaging the bcc phase distribution in the microstructure. Even with EBSD measurements in defect-rich phases, which, for process-related reasons, involve high investigation costs and long measurement durations, this is often only possible to a limited extent. The present study presents fast and simple contrasting by means of ferrofluids. It allows for a precise and spatially resolved differentiation between (ferromagnetic) martensite and (paramagnetic) defect structures on metallographic cross-section by optical microscopy. Furthermore, it is shown that, after a ferrofluid treatment of metallographic cross-sections made of duplex steel, ferromagnetic ferrite areas already show evidence of grain orientations.
- Published
- 2015
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