Abstract
By optical microscopy, transmission electron microscopy and energy dispersive spectroscopy, the changes with aging time in size, composition and distribution of nanometer-sized (Ti, Mo) C precipitated in Ti-Mo low-alloy ferrite steel have been studied in comparison with that of nanometer-sized TiC precipitated in Ti low-alloy ferrite steel. It was found that the growth rate of (Ti, Mo) C in Ti-Mo steel was less than that of TiC in Ti steel. Nanometersized carbides formed at 650 °C for 550 °C) for 55 h were at transitional stage from growth to coarsening. When aging time reaches 55 h, the coarsening rates of nanometer-sized carbides in Ti and Ti-Mo steel tend to be the same and invariable. The influence of Mo on growth and coarsening of nanometer-sized carbides tends to decrease with increasing aging time, and Mo contents in nanometer-sized carbides with the same size at different aging time were different.
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