超深冲IF钢退火初期再结晶形核机制

Recrystallization Nucleation Mechanism on Initial Annealing in Extra-Deep Drawing IF Steel

  • 摘要: 本文选用了超深冲IF钢,经1200℃开轧、930℃终轧、700℃卷取和80%冷轧后,在800℃不同时间退火并观察其再结晶过程。实验结果表明.微碳、钛、铌IF钢在退火初期,111平行于板面亚晶首先发生回复、多边化,而后形成再结晶晶核,同时这种取向的晶粒优先长大从而形成111纤维的织构,其它取向的品粒较迟发生回复或被生长着的111平行于板面取向的晶粒吞并。

     

    Abstract: The recrystal course is observed through annealing temperature of 800℃ and variation annealing time in extra-deep drawing IF steel. It is processed in soak temperature of 1 200℃, finish temperature of 930℃, coiling temperature of 700℃ and cold reduction of 80%. According to experamental result, the recrystallization nucleation principle in preliminary annealing is discovered in IF steel of micro-carbon, micro-titanium and micro-niobium. The principle is that the recovering, poly-gonization begins at the subgrains of 111 orientation, then these subgrains grow up prevailing. The texture mainly consisting of 111 orientation is formed.

     

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