Study on the transformation and microstructure evolution during hot-charging rolling process of a weathering steel

Man Liu, Guang Xu, Guanghui Chen, Zhoutou Wang
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Abstract

The effect of hot-charging temperature (HCT) on the transformation and microstructure evolution of a weathering steel was investigated by metallography and dilatometry. The results show that the microstructure consisted of ferrite and pearlite in all specimens when the HCT was between 500 ∼ 850 °C. The difference was that pearlite amount increased obviously at 750 °C, which is detrimental to the plasticity of steels. The reason for more pearlite is that ferrite and austenite coexisted at 750 °C, which belongs to the dual-phase region temperature. The reversed transformation of ferrite to austenite happened and the pre-existing austenite became coarse during the secondary austenization. The carbon content in fine reversed austenite was relatively low, while the coarse austenite contained higher carbon content, which decomposed into blocky pearlite in the final cooling process. Therefore, to obtain the desirable ferrite phase, the HCT of about 750 °C should be avoided. The results provide theoretical reference for optimizing hot-charging rolling process parameters.
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某耐候钢热装轧制过程相变及组织演变研究
采用金相和膨胀法研究了热装温度对耐候钢相变和组织演化的影响。结果表明:当高温温度在500 ~ 850℃之间时,所有试样的显微组织均由铁素体和珠光体组成;不同的是,在750℃时珠光体数量明显增加,不利于钢的塑性。珠光体较多的原因是在750℃时铁素体和奥氏体共存,属于双相区温度。在二次奥氏体化过程中发生了铁素体向奥氏体的反向转变,原有的奥氏体变粗。细反转奥氏体含碳量相对较低,粗反转奥氏体含碳量较高,在最终冷却过程中分解为块状珠光体。因此,为了获得理想的铁素体相,应避免750℃左右的高温高温。研究结果为优化热装轧制工艺参数提供了理论参考。
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