以指导无取向电工钢热轧工艺为目的,采用Gleeble 1500热模拟试验机进行高温等温压缩,在应变速率为0.01~10s-1和变形温度500~1200℃条件下,对试样进行试验研究。结果表明:随着变形温度的升高,在回复与再结晶过程中发生α-Fe向γ-Fe相的?洌贾挛忍鞅溆αΤ氏帧耙斐!北浠2捎肁rrhenius关系模型,模型参数能很好的与试验结果相吻合。利用模型分别计算得500~800℃时,应力水平因子α=0.0390MPa-1,应力指数n=7.93,结构因子A=1.9×1018 s-1,热变形激活能Q=334.8kJ/mol;1050~1200℃时,应力水平因子α=0.1258MPa-1,应力指数n=5.29,结构因子A=1.0×1028 s-1,热变形激活能Q=769.9kJ/mol。
For the guidance of hot rolling process, the high temperature plastic deformation behavior of non-orientation electrical steel was investigated by Gleeble 1500 thermo-mechanical simulator in the strain rate range of 0.01-10s-1 and temperature range of 500-1200℃. The results show that: with the increase of deformation temperature, the phase transformation from α-Fe to γ-Fe takes place during the recovery and recrystallization process and causes the steady flow stress exhibits abnormally. The α (stress level factor), n (stress exponent), A (structure factor) and Q (activation energy) of high temperature process of non-orientation electrical steel in different temperature range were calculated by Arrhenius model. During the high temperature plastic deformation process between 500 and 800℃, the calculated values of α, n, A and Q are 0.0390MPa-1, 7.93, 1.9×1018 s-1, and 334.8kJ/mol, respectively. During the high temperature plastic deformation process between 1050 and 1200℃, the calculated values of α, n, A and Q are 0.1258MPa-1, 5.29, 1.0×1028 s-1, and 769.9kJ/mol, respectively.
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