M. Loeck scite author profile

The role of topologically close packed (TCP) phases in deformation of superalloys and steels is still not fully resolved. In particular, the intrinsic deformation mechanisms of these phases are largely unknown including the active slip systems in most of these complex crystal structures. Here, we present a first detailed investigation of the mechanical properties of the Fe7Mo6 µ-phase at room temperature using microcompression and nanoindentation with statistical EBSD-assisted slip trace analysis and TEM imaging. Slip occurs predominantly on the basal and prismatic planes, resulting also in decohesion on prismatic planes with high defect density. The correlation of the deformation structures and measured hardness reveals pronounced hardening where interaction of slip planes occurs and prevalent deformation at pre-existing defects.

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Determination of grain boundary mobility during recrystallization by statistical evaluation of electron backscatter diffraction measurements

Basu

Chen

Loeck

et al. 2016

Materials Characterization

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Simulation of microstructure evolution during recrystallization using a high resolution three dimensional cellular automaton

2004

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A more refined 3D cellular Automata (CA) algorithm has been developed which has increased the resolution of the space and reduced the computation time and can take care of the complexity of recrystallization process through physically based solutions. This model includes recovery, condition for nucleation and orientation dependent variable nuclei growth as a process of primary static recrystallization. Incorporation of microchemistry effects makes this model suitable for simulating recrystallization behaviour in terms of texture, kinetics and microstructure of different alloys. The model is flexible to couple up with other simulation programs on a common database.

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M. Loeck

A cellular operator model for the simulation of static recrystallization

Room temperature deformation in the Fe7Mo6 μ-Phase

Determination of grain boundary mobility during recrystallization by statistical evaluation of electron backscatter diffraction measurements

Simulation of microstructure evolution during recrystallization using a high resolution three dimensional cellular automaton

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