Abstract
Titanium carbosulfide Ti4C2S2 (H phase, P63/mmc, a=0.321 nm and c= 1.120) are TiS (Rm, a=0.3417 nm and c = 2.65) are frequently found to coexist within composite particle in ultra-low carbon interstitial-free (IF) steels. This more suggest that a direct transformation from TiS to Ti4C2S2 may be a major stabilization of C at higher temperatures in these steels. The deduced orient between Ti4C2S2 and TiS is in agreement with a reported crystal structure mode transformation mechanism between these two phases appears to be strongly related structures.At the as-cast condition, most of the S- and C-rich particles in the studied IF step as pure M4C2S2 (M=Ti, Nb). After a re-heating treatment at 1300°C, M4C2S2 discharge and a new phase were observed. This new phase can be indexed as a trigonated with a=0.33 nm and c=5.3 nm (Figure 1). After a second re-heating treatment appeared at the center layer of the multi-phase particles (Figure 2). It should be noted that (i) some planar defects were observed inside the new phase and Ti4C2S2 carbon and 2a).
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More From: Proceedings, annual meeting, Electron Microscopy Society of America
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