2007
DOI: 10.1007/s11661-006-9029-x
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A Study of Diffusion- and Interface-Controlled Migration of the Austenite/Ferrite Front during Austenitization of a Case-Hardenable Alloy Steel

Abstract: Migrating austenite/ferrite interfaces in the ferrite regions of an alloy steel, containing 0.20 wt pct C, 0.87 wt pct Mn, and 0.57 wt pct Cr, with a ferrite/pearlite microstructure have been observed during austenitization by a high-temperature confocal scanning laser microscope in order to determine the mechanisms of transformation. The samples were subjected to isothermal (790°C to 850°C) and nonisothermal (0.5°C to 20°C/s) temperature profiles. The kinetic rates extracted from the observations were compare… Show more

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Cited by 21 publications
(13 citation statements)
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“…The initial microstructure has an impact on the kinetics of austenite formation, as pointed out in earlier works [11][12][13]. Experimental studies [14,15] of the anisothermal formation of austenite in ferrite-pearlite aggregates revealed different kinetics of the γ/α interface migration towards pearlite, in comparison to its advance into proeutectoid ferrite. Dilatometric data [16] are in agreement with the different kinetics of austenite growth in pearlite and proeutectoid ferrite.…”
Section: Introductionmentioning
confidence: 69%
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“…The initial microstructure has an impact on the kinetics of austenite formation, as pointed out in earlier works [11][12][13]. Experimental studies [14,15] of the anisothermal formation of austenite in ferrite-pearlite aggregates revealed different kinetics of the γ/α interface migration towards pearlite, in comparison to its advance into proeutectoid ferrite. Dilatometric data [16] are in agreement with the different kinetics of austenite growth in pearlite and proeutectoid ferrite.…”
Section: Introductionmentioning
confidence: 69%
“…The carbon diffusion distance is considered to be on the order of one-half of the pearlitic interlamellar spacing. This assumption, first proposed by Zener for the growth of pearlite [26], has been accepted and applied to the modeling of austenite formation in pearlitic steels [12,13] [15] confirmed that the kinetics of the γ/α interface into pearlite is~2 times faster than its movement into proeutectoid ferrite. Figure 1a show that, in samples heated at 150 • C/s to 704 • C, the austenite is forming at the α/θ interfaces, preferentially at triple junctions of ferritic grains.…”
Section: Austenite Growth Into Pearlitementioning
confidence: 90%
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“…The change in transformation mode from diffusion controlled to massive was observed by Schmidt et al, [26,27] who studied the austenite formation from ferrite-pearlite microstructure during continuous heating using hot-stage confocal microscopy. During the experiments, under conditions above the T 0 temperature, the growth rate increased drastically and it was claimed that the interface-reaction-controlled growth mechanism was responsible for the transformation.…”
Section: Growth Types Of Individual Grainsmentioning
confidence: 82%