C and N Atom Redistribution Behaviors in 0.30C-15.0Cr-1.0Mo-0.50N Martensitic Stainless Steel During Cryogenic Treatment

Xin Cai, Xiaoqiang Hu, Leigang Zheng, Dianzhong Li
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Abstract

The redistribution of C and N interstitial atoms i n a martensitic stainless steel combined alloying with 0.3 wt.% C and 0.5 wt.% N after cryogenic treatment was investigated by the transition electronic microscope (TEM), X-ray diffractometer (XRD), and atom probe tomography (APT). C atoms accumulated to form clusters which were enhanced by the decrease of cryogenic temperature. N atoms as Mo-N and Cr-N pairs were found when the cryogenic temperature was deep to -190 o C. It seems that the redistribution behavior of C and N atoms is considerably different, and these interstitial atoms migrated more strenuously despite of the cryogenic temperature decreasing. The migration of interstitial atoms is supposed to associate with the microstructure evolution combining the increase of dislocation density and the martensite transformation from the retained austenite during cryogenic treatment.
0.30C-15.0Cr-1.0Mo-0.50N马氏体不锈钢低温处理过程中C、N原子重分布行为
采用透射电镜(TEM)、x射线衍射仪(XRD)和原子探针层析成像(APT)研究了低温处理后,含0.3 wt.% C和0.5 wt.% N的马氏体不锈钢复合合金中C和N间隙原子的重新分布。随着低温温度的降低,碳原子聚集形成团簇。当低温至-190℃时,发现N原子以Mo-N和Cr-N对的形式存在,表明C和N原子的再分配行为有很大不同,尽管低温温度降低,但这些间隙原子的迁移更加剧烈。间隙原子的迁移与组织演化有关,包括位错密度的增加和低温处理过程中残余奥氏体向马氏体的转变。
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