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Dynamic process of trace boron non-equilibrium grain boundary segregation and the effect of cooling rate

Dynamic process of trace boron non-equilibrium grain boundary segregation and the effect of cooling rate
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摘要 The dynamic process of non-equilibrium grain boundary segregation of traceboron in Fe-40 percent Ni alloy during cooling and the effect of cooling rate were investigated byboron tracking autoradiography technique. The results indicate that during cooling process, theamount of segregated boron on grain boundary firstly increases fast, then enters a comparativelyeven increasing stage and increases rapidly again at the third stage. The details of each stagevaried with cooling rate are explained. When the segregation develops to a certain degree, thesegregated boron atoms transform from solute status to precipitate status. The dynamic process of non-equilibrium grain boundary segregation of traceboron in Fe-40 percent Ni alloy during cooling and the effect of cooling rate were investigated byboron tracking autoradiography technique. The results indicate that during cooling process, theamount of segregated boron on grain boundary firstly increases fast, then enters a comparativelyeven increasing stage and increases rapidly again at the third stage. The details of each stagevaried with cooling rate are explained. When the segregation develops to a certain degree, thesegregated boron atoms transform from solute status to precipitate status.
作者 PingWu XinlaiHe BingCao SenChen
机构地区 MaterialScienceandEngineeringSchool EditorialDepartmentofJ.Univ.Sci.Technol.Beijing AppliedScienceSchool
出处 《Journal of University of Science and Technology Beijing》 CSCD 2003年第3期30-34,共5页 北京科技大学学报(英文版)
基金 This work was financially supported by the Projects of Development of the State Key Fundamental Research(National 973 Project)(No.G19980601507).]
关键词 BORON grain boundary non-equilibrium segregation dynamic process boron grain boundary non-equilibrium segregation dynamic process
分类号 TF644 [冶金工程—钢铁冶金]
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Journal of University of Science and Technology Beijing
2003年 第3期

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