Lena Eisenhut scite author profile

Precipitation is one of the most important influences on microstructural evolution during thermomechanical processing (TMCP) of micro-alloyed steels. Due to precipitation, pinning of prior austenite grain (PAG) boundaries can occur. To understand the mechanisms in detail and in relation to the thermomechanical treatment, a local characterization of the precipitation state depending on the microstructure is essential. Commonly used methods for the characterization, such as transmission electron microscopy (TEM) or matrix dissolution techniques, only have the advantage of local or statistically secured characterization. By using scanning electron microscopy (SEM) and atomic force microscopy (AFM) techniques, both advantages could be combined. In addition, in the present work a correlation of the precipitation conditions with the prior austenite grain structure for different austenitization states could be realized by Electron Backscatter Diffraction (EBSD) measurement and reconstruction methods using the reconstruction software Merengue 2.

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Assessment of EBSD Analysis and Reconstruction Methods as a Tool for the Determination of Recrystallized Fractions in Hot-Deformed Austenitic Microstructures

Krämer

Eisenhut

Germain

et al. 2018

Metall Mater Trans A

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Beschreibung der Austenitkorngrößenentwicklung in der Grobblecherzeugung mit Hilfe physikalischer Prozesssimulation

Eisenhut¹

2018

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Lena Eisenhut

Effect of a dislocation pile-up at the neutral axis on trans-crystalline crack growth for micro-bending fatigue

Local Characterization of Precipitation and Correlation with the Prior Austenitic Microstructure in Nb-Ti-Microalloyed Steel by SEM and AFM Methods

Assessment of EBSD Analysis and Reconstruction Methods as a Tool for the Determination of Recrystallized Fractions in Hot-Deformed Austenitic Microstructures

Beschreibung der Austenitkorngrößenentwicklung in der Grobblecherzeugung mit Hilfe physikalischer Prozesssimulation

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