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作者:

Gong, Liqiang (Gong, Liqiang.) | Chen, Zhengyang (Chen, Zhengyang.) | Xing, Zhenguo (Xing, Zhenguo.) | Fu, Hanguang (Fu, Hanguang.) (学者:符寒光)

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EI Scopus SCIE

摘要:

The effects of silicon alloying and heat treatment on the microstructure and properties of Fe-35Cr-4C-xSi (x = 0.5, 1.2, 19, 2.6) hypereutectic high-chromium cast iron (HHCCI) were explored through first-principles calculations and phase diagram calculations combined with XRD, SEM, TEM and other methods. With the increase of Si content, the matrix structure of HHCCI transforms from martensite to ferrite. The phase diagram analysis reveals that higher silicon content results in elevated austenite transformation initiation temperatures, reduced austenite phase areas, and expanded ferrite phase regions. Additionally, the study calculates the diffusion activation energy of C atoms within silicon-bearing and silicon-free HHCCI matrices, providing valuable insights into the role of silicon in promoting the transformation of the HHCCI matrix into ferrite. Notably, silicon facilitates the diffusion of C atoms into the silicon-bearing HHCCI matrix, thereby preventing complete austenitization. After ultra-high-temperature heat treatment, the matrix structure of high-silicon HHCCI (1.9 wt.% Si) can be transformed from ferrite to martensite. With the increase of Si content, the corrosive wear resistance of HHCCI increases first and then decreases. The 1.9Si HHCCI after ultra-high-temperature heat treatment exhibits the best corrosive wear resistance in both acidic and alkaline corrosive wear environments, and the silicon-bearing HHCCI is more resistant to alkaline corrosive wear. This study reveals promising applications of silicon-bearing HHCCI in industries such as hydraulics and coal mining, particularly as a material for making slurry pumps. Notably, in comparison with previous work by our research group, this study delves deeper into the mechanisms underlying the structural and performance changes of silicon-bearing HHCCI due to heat treatment and silicon content variation.

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作者机构:

  • [ 1 ] [Gong, Liqiang]Beijing Univ Technol, Dept Mat Sci & Engn, 100, Pingle Garden, Beijing 100124, Peoples R China
  • [ 2 ] [Chen, Zhengyang]Beijing Univ Technol, Dept Mat Sci & Engn, 100, Pingle Garden, Beijing 100124, Peoples R China
  • [ 3 ] [Fu, Hanguang]Beijing Univ Technol, Dept Mat Sci & Engn, 100, Pingle Garden, Beijing 100124, Peoples R China
  • [ 4 ] [Xing, Zhenguo]Hebei Key Lab High Strength & Wear Resistant Met M, Handan 056038, Hebei, Peoples R China
  • [ 5 ] [Fu, Hanguang]Hebei Key Lab High Strength & Wear Resistant Met M, Handan 056038, Hebei, Peoples R China
  • [ 6 ] [Xing, Zhenguo]Hebei Univ Engn, Sch Mat Sci & Engn, Handan 056038, Hebei, Peoples R China

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来源 :

JOURNAL OF MATERIALS SCIENCE

ISSN: 0022-2461

年份: 2023

期: 46

卷: 58

页码: 17623-17647

4 . 5 0 0

JCR@2022

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