Effect of Ti-V-Nb-Mo addition on microstructure of high chromium cast iron 被引量：6

Effect of Ti-V-Nb-Mo addition on microstructure of high chromium cast iron

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摘要 The effects of trace additions of multi-alloying elements(Ti,Nb,V,Mo)on carbides precipitation and as- cast microstructure of eutectic high chromium cast iron containing 2.85wt.%C and 31.0wt.%Cr were investigated from thermodynamic and kinetic considerations.The thermodynamic calculations show that Ti and Nb exist in the multi-alloying system in the forms of TiC and NbC.The formation of VC during the solidification is not feasible from the thermodynamic consideration.XRD analysis shows that the V exists in alloy compounds(VCr2C2,VCrFe8).The first precipitated high melting point particles(TiC,NbC)can act as the heterogeneous substrate of M7C3 carbides, which results in significant refinement of the M7C3 carbides.After the addition of alloying elements,C atom diffusion is hindered due to the strong affinities of the strong carbide forming elements for carbon,which decreases the growth rate of carbides.The combined roles of the increase of nucleation rate and the decrease of carbides growth rate lead to the finer microstructure. The effects of trace additions of multi-alloying elements （Ti, Nb, V, Mo） on carbides precipitation and ascast microstructure of eutectic high chromium cast iron containing 2.85wt.%C and 31.0wt.%Cr were investigated from thermodynamic and kinetic considerations. The thermodynamic calculations show that Ti and Nb exist in the multi-alloying system in the forms of TiC and NbC. The formation of VC during the solidification is not feasible from the thermodynamic consideration. XRD analysis shows that the V exists in alloy compounds （VCr2C2, VCrFes）. The first precipitated high melting point particles （TIC, NbC） can act as the heterogeneous substrate of M7C3 carbides, which results in significant refinement of the M7C3 carbides. After the addition of alloying elements, C atom diffusion is hindered due to the strong affinities of the strong carbide forming elements for carbon, which decreases the growth rate of carbides. The combined roles of the increase of nucleation rate and the decrease of carbides growth rate lead to the finer microstructure.

作者 Ma Youping Li Xiulan Liu Yugao Zhou Shuyi Dang Xiaoming

机构地区 School of Metallurgic Engineering School of Mechanical and Electrical Engineering

出处《China Foundry》 SCIE CAS 2012年第2期148-153,共6页 中国铸造（英文版）

基金 supported by the Education Department of Shaanxi Province(No.2010JK49)

关键词 high chromium cast iron MICROSTRUCTURE ALLOYING THERMODYNAMICS KINETICS high chromium cast iron microstructure alloying thermodynamics kinetics

分类号 TG143.9 [金属学及工艺—金属材料]

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