WU Suzhou
,
ZHANG Jiongming
钢铁研究学报(英文版)
Controlling inclusion composition, from the point of view of thermodynamics, only explains the probability and limit of reaction. However, kinetics makes the nucleation and the velocity of growth of inclusions clear, and these kinetic factors are very important to the quality of slab. The basic kinetic theory of unreacted core model was used to build the mathematical model for the growth of inclusions and the concerned software was developed through Visual Basic 60. The time that different radius inclusions attain saturation was calculated to determine the controlling step of reaction between steel and inclusions. The time for the growth of inclusion obtained from the model was in good agreement with the data measured by Japanese Okuyama G, which indicated that the model is reasonable.
关键词:
inclusion;finite difference method;kinetic theory;unreacted core model
HUANG Fuxiang
,
WANG Xinhua
,
ZHANG Jiongming
,
JI Chenxi
,
FANG Yuan
,
YU Yan
钢铁研究学报(英文版)
The solidification process of AISI 304 stainless steel during cooling at a rate of 005 K/s has been observed in situ using a confocal scanning laser microscope (CSLM). The results show that the δ phase appeared first in liquid steel, as the temperature decreased, the γ phase precipitated prior at δgrain boundary at 1 4522 ℃, the liquid steel disappeared at 1 4313 ℃, and then the γ phase precipitated on the δ ferrite. Based on the ScheilGulliver solidification model, the solidification processes of AISI 304 stainless steel are simulated using the Scheil model in ThermoCalc, and the simulation results agree well with the results observed in the experiment.
关键词:
stainless steel;confocal scanning laser microscope;strip casting;ThermoCalc
