Precipitation kinetics of Nb carbonitride in austenite and acicular ferrite and its effect on hardness of high-Nb steel

The dissolved Nb contents in four high-Nb steels were quantitatively measured after hot deformation at 925 °C and reheating at 600 °C. The Nb carbonitride precipitation kinetics in austenite and in acicular ferrite were studied, and the effects of Nb carbonitride on the precipitation hardness were d...

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Bibliographic Details
Published in:Materials chemistry and physics 2016-11, Vol.183, p.506-515
Main Authors: Gu, Yu, Qiao, Gui-ying, Wu, Da-yong, Liao, Bo, Xiao, Fu-ren
Format: Article
Language:English
Subjects:
Dissolved Nb content
High-Nb steel
Precipitation kinetics
Precipitation strengthening
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Summary:The dissolved Nb contents in four high-Nb steels were quantitatively measured after hot deformation at 925 °C and reheating at 600 °C. The Nb carbonitride precipitation kinetics in austenite and in acicular ferrite were studied, and the effects of Nb carbonitride on the precipitation hardness were discussed. The results show that the nucleation rate of Nb precipitation in austenite is strongly depended on the dissolved Nb content in matrix. The parameter n of the JMAK equation is increased with the increase of the dissolved Nb content in matrix. The n value of the factor of nucleation rate of Nb carbonitride precipitated in acicular ferrite is related to the dissolved Nb and C contents in matrix. Nb carbonitride precipitated in austenite decreases the hardness of the final products by accelerating the phase transformation. By contrast, Nb carbonitride precipitated in acicular ferrite exhibits high precipitation strengthening potency. •The dissolved Nb contents in austenite and acicular ferrite were measured.•The JMAK equations of Nb precipitation in austenite and ferrite were established.•The Nb carbonitride precipitation in austenite affects the phase transformation.•Nb carbonitride precipitation in ferrite exhibits high strengthening potency.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2016.09.008