Thickening kinetics of proeutectoid ferrite plates in Fe-C alloys
Document Type
Article
Publication Date
1-1-1975
Department
Department of Materials Science and Engineering
Abstract
Thermionic electron emission microscopy was used to measure directly the thickening kinetics of proeutectoid ferrite sideplates in Fe-C alloys. These kinetics were found to be exceedingly irregular. During the first few seconds of growth, the thickening rate is 5 xl0-5±1 cm/s; afterwards it usually diminishes to 1 - 30 × 10-6 cm/s. As predicted by a general theory of precipitate morphology, thickening was shown to occur only by the ledge mechanism, despite the relatively poor matching of the austenite and the ferrite lattices. Ledges were observed to lengthen at rates controlled by the diffusion of carbon in austenite. Tent-shaped and other more complex surface relief effects, rather than the invariant plane strain relief, were found to predominate. These features are shown to be the expected result of a diffusional transformation occurring by means of a ledge mechanism.
Publication Title
Metallurgical Transactions A
Recommended Citation
Kinsman, K.,
Eichen, E.,
&
Aaronson, H.
(1975).
Thickening kinetics of proeutectoid ferrite plates in Fe-C alloys.
Metallurgical Transactions A,
6(1), 303-317.
http://doi.org/10.1007/BF02667284
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/4485