Journal of shanghai Jiaotong University (Science) ›› 2012, Vol. 17 ›› Issue (3): 268-272.doi: 10.1007/s12204-012-1266-0

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Study on the Thermal Stability of Cu-14Fe in Situ Composite without and with Trace Ag

Study on the Thermal Stability of Cu-14Fe in Situ Composite without and with Trace Ag

LIU Yong1 (刘勇), SHAO Shuang1 (邵爽), XU Chun-shui1 (徐春水), LIU Ke-ming2 (刘克明) YANG Xiang-jie1 (杨湘杰), LU De-ping2(陆德平)   

  1. (1. Jiangxi Key Laboratory for Precise Formation with Excellent Properties, Nanchang University, Nanchang 330031, China; 2. Jiangxi Key Laboratory for Advanced Copper and Tungsten Materials, Jiangxi Academy of Sciences, Nanchang 330029, China)
  2. (1. Jiangxi Key Laboratory for Precise Formation with Excellent Properties, Nanchang University, Nanchang 330031,
    China; 2. Jiangxi Key Laboratory for Advanced Copper and Tungsten Materials, Jiangxi Academy of Sciences,
    Nanchang 330029, China)
  • Online:2012-06-30 Published:2012-11-15
  • Contact: LU De-ping2(陆德平) E-mail:ludeping61@163.com

Abstract: The thermal stability of Cu-14Fe and Cu-14Fe-0.07Ag in situ composites is investigated. The evolution of Fe filaments in two composites is analyzed detailedly by annealing at high temperature. The results indicate that the Cu-14Fe in situ composite exhibits two kinds of evolution of Fe filament, the longitudinal splitting of Fe filaments at low temperature (below 600℃) and spheroidization of Fe filaments at high temperature (above 600℃). With the addition of trace Ag, the longitudinal splitting of Fe filaments at low temperature is accelerated, while spheroidization of Fe filaments at high temperature inhibited. The microstructure evolution procedure of Cu-14Fe without and with trace Ag has been modeled. This work would promote the understanding of the microstructure evolution of Cu-Fe in situ composite.

Key words: Cu-Fe in situ composite| thermal stability| microstructure evolution| theoretical model

摘要: The thermal stability of Cu-14Fe and Cu-14Fe-0.07Ag in situ composites is investigated. The evolution of Fe filaments in two composites is analyzed detailedly by annealing at high temperature. The results indicate that the Cu-14Fe in situ composite exhibits two kinds of evolution of Fe filament, the longitudinal splitting of Fe filaments at low temperature (below 600℃) and spheroidization of Fe filaments at high temperature (above 600℃). With the addition of trace Ag, the longitudinal splitting of Fe filaments at low temperature is accelerated, while spheroidization of Fe filaments at high temperature inhibited. The microstructure evolution procedure of Cu-14Fe without and with trace Ag has been modeled. This work would promote the understanding of the microstructure evolution of Cu-Fe in situ composite.

关键词: Cu-Fe in situ composite| thermal stability| microstructure evolution| theoretical model

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