第一作者：王禹程
通讯作者：李阳,姜周华
合写作者：孙萌,毛昀惬,李天赐
发表刊物：steel research international
影响因子：1.9
DOI码：10.1002/srin.202400454
所属单位：东北大学冶金学院
教研室：绿色智能特殊钢冶金研究中心
摘要：Various techniques, such as optical microscopy, high-temperature confocal laser scanning microscopy, scanning electron microscopy, electron backscatter diffraction, and thermodynamic calculations, are employed to analyze the optimization mechanism of Ce on the inclusions and microstructures in F38MnVS as-cast samples. The results show that the addition of Ce inhibits MnS precipitation at the grain boundaries and significantly reduces the diameters and aspect ratios of the inclusions. After Ce treatment, a new type of composite inclusion appears in the steel. The modification of the inclusions by Ce promotes the optimization of the as-cast microstructure during solidification, which mainly exhibits austenite grain refinement and polygonal ferrite formation in the grains. Based on the misfit degree theory, the refinement of the austenite grains is because of the nucleation of austenite grains facilitated by Ce2O2S and CeAlO3. The increased nucleation of the intragranular polygonal ferrite is mainly attributed to Ce2O2S, Ce2S3, CeAlO3, and VC, which can promote the nucleation of alpha-Fe. Simultaneously, the addition of Ce reduces the phase transition temperature, increases the driving force of the phase transition, and increases the nucleation rate. This study's results can provide a reference for the application of Ce treatment in the preparation of nonquenched tempered steel for automobiles.
关键字：austeniteferritesinclusionsmicrostructuresrare earth Ce
论文类型：SCI
备注：无
学科门类：工学
一级学科：冶金工程
页面范围：2400454
ISSN号：1611-3683
是否译文：否