Milo V. Kral scite author profile

The three-dimensional (3-D) shapes and distributions of grain-boundary-nucleated proeutectoid ferrite precipitates have been obtained by computer-aided 3-D reconstruction of serial sections of an Fe-0.12 wt pct C-3.28 wt pct Ni alloy. Isothermal transformation for short times at 650 °C was used to produce a low volume fraction of ferrite, which appeared as both Widmanstätten shapes and more-equiaxed grain-boundary precipitates. While the two-dimensional (2-D) cross sections of these precipitates appeared to fit into the previously accepted categories of precipitate morphologies, 3-D reconstructions revealed important aspects of connectivity and shape that were not observed earlier.A partially revised morphological classification based on these 3-D observations is provided here. Significant differences between the 3-D morphology of proeutectoid ferrite and that of proeutectoid cementite are also discussed, indicating (among other things) that the 3-D morphological classifications of ferrite are generally more complex than those of proeutectoid cementite.

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Three dimensional morphology of cementite precipitates

Kral

1997

Scripta Materialia

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Some new characteristics of the strengthening phase in β-phase magnesium–lithium alloys containing aluminum and beryllium

Song

Staiger

Kral

2004

Materials Science and Engineering: A

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Three-dimensional analysis of microstructures

Kral

Mangan

Σπανός

et al. 2000

Materials Characterization

100

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Milo V. Kral

Three-dimensional analysis of proeutectoid cementite precipitates

A crystallographic orientation transition and early stage growth characteristics of thin Bi films on HOPG

Crystallography of grain boundary cementite dendrites

Correlation between the crystallography and morphology of proeutectoid Widmanstätten cementite precipitates

Three-dimensional analysis and classification of grain-boundary-nucleated proeutectoid ferrite precipitates

Three dimensional morphology of cementite precipitates

Some new characteristics of the strengthening phase in β-phase magnesium–lithium alloys containing aluminum and beryllium

Three-dimensional analysis of microstructures

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