含磷TRIP钢的CCT图

Continuous cooling transformation diagrams of TRIP steels with phosphorus

  • 摘要: 为了探索合金元素在TRIP钢相变过程中的重要作用,利用金相、显微硬度等方法研究了四种不同合金成分C-Mn-Al-PTRIP钢的CCT图.结果表明:Al元素强烈地缩小奥氏体相区,提高Ac3与Ms;Al元素促使CCT图左移和上移.P元素能够阻碍碳化物生成,当钢中P质量分数达到0.14%时,能显著地将CCT图中的珠光体区与贝氏体区右移;P元素对铁素体相变和马氏体相变没有显著的影响.结果还显示出随着冷却速率的增加,材料的显微硬度随之增加.对于每一种成分,超过其临界冷却速率时,将得到完全的马氏体组织.

     

    Abstract: In order to research the effect of alloy elements on the phase transformation of transformation-induced plasticity (TRIP) steels, continuous cooling transformation (CCT) diagrams of four kinds of C-Mn-Al-P TRIP steels, with different aluminum contents and with or without microalloy element P, were studied by using optical microscopy and microhardness measurements. Al makes the ferrite forming and pearlite forming temperatures to the left side, and the bainite forming and martensite forming to the higher temperatures of the diagram, as Al narrows the austenite phase region strongly and increases the Ac3 point and Ms point. P can reduce the kinetics of cementite precipitation, and when its mass fraction reaches 0.14%, it causes a shift of the pearlite forming and bainite forming temperatures to the right side significantly. However, P has no significant effect on ferrite transformation and martensite transformation. The results also reveal that the microhardness increases as the cooling rate increases, and the microstructure will be fully martensitic when the cooling rate reaches the critical rate of the steel.

     

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