摘要
将Cr-Mo-V-Ni中合金钢在1 030℃奥氏体化保温0.5h后油淬,在600℃回火2次,每次2h。结合光学显微镜(OM)和扫描电子显微镜(SEM),采用三维原子探针(3DAP)技术分析了淬火态和回火态各元素原子的三维空间分布以及碳化物内部和碳化物/基体界面处元素分布和成分变化。结果表明,淬火试样中C原子由于自回火和短程扩散出现了较为明显的片状偏聚,而其他合金原子Cr、Mn、Mo、Si、V和Ni基本分布均匀;回火试样中C、Cr、Mo和V发生共偏聚形成厚度约10nm的合金碳化物M23C6,Si原子形成一层薄薄的偏聚层包裹着M23C6,而Ni又包裹着Si原子而偏聚于最外层。
Three dimensional atom probe(3 DAP)combined with optical microstructure(OM)and scanning electron microscopy(SEM)were applied to characterize the spatial distributions of carbon atom and alloy elements concentration of tested steel tempered twice at 600 ℃ for 2 hafter quenched at 1 030 ℃ holding 0.5 h,respectively.Simultaneously,the elements segregation in carbide and at carbide/matrix interface was also analyzed.The results indicated that the alloying elements Cr,Mn,Mo,Si,V and Ni atoms in the as-quenched specimen were almost no segregation,and element C was obviously sheet-like segregation attributed to auto-tempering and short-range diffusion of C atom.Co-segregation of C,Cr,Mo and V atoms occurred to form the M23 C6 alloy carbide with a thickness about 10 nm in as-tempered specimen.The M23 C6 carbide was wrapped by Si atom with a thin segregation layer,while the Si atom is surrounded by the Ni atom segregated at the outermost.
出处
《材料导报》
EI
CAS
CSCD
北大核心
2017年第22期85-89,共5页
Materials Reports
基金
国家重点研发计划(2016YFB0300400
2016YFB0300402)
关键词
Cr-Mo-V-Ni中合金钢
偏聚
原子空间分布
三维原子探针
Cr-Mo-V-Ni medium-al loy steel
segregat ion
spat ial distribut ions of the atoms
three dimensional atom probe
