Simulation of thermomechanical behavior during continuous casting process based on MiLE method

Simulation of thermomechanical behavior during continuous casting process based on MiLE method

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摘要 A new method called mixed Lagrangian and Eulerian method(MiLE method) was used to simulate the thermomechanical behavior during continuous casting process of steel YF45MnV.The simulation results are basically in agreement with the measured data.The delaying period at the beginning of solidification is about 0.1 in square root of solidification time which is agreement with the data in literatures,and shell thickness increases in linear relation to square root of solidification time.The bloom surface temperature decreases gradually as the casting proceeds.The effective stress in the corner is much larger than that in the mid-face.The corner area is the dangerous zone of cracking.The effects of mold flux break temperature on the air gap and hot tearing indicator were also modeled.The model predicts that the bloom surface temperature increases with the increase of the mold flux break temperature,but the heat flux decreases with the increase of the mold flux break temperature.The hot tearing indicator is much smaller when the mold flux break temperature is higher. A new method called mixed Lagrangian and Eulerian method （MILE method） was used to simulate the thermomechanical behavior during continuous casting process of steel YF45MnV. The simulation results are basically in agreement with the measured data. The delaying period at the beginning of solidification is about 0.1. in square root of solidification time which is agreement with the data in literatures, and shell thickness increases in linear relation to square root of solidification time. The bloom surface temperature decreases gradually as the casting proceeds. The effective stress in the comer is much larger than that in the mid-face. The comer area is the dangerous zone of cracking. The effects of mold flux break temperature on the air gap and hot tearing indicator were also modeled. The model predicts that the bloom surface temperature increases with the increase of the mold flux break temperature, but the heat flux decreases with the increase of the mold flux break temperature. ,The hot tearing indicator is much smaller when the mold flux break temperature is higher.

作者夏云进王福明李长荣王金龙

机构地区 School of Metallurgical and Ecological Engineering School of Metallurgy and Resources School of Materials Science and Engineering

出处《Journal of Central South University》 SCIE EI CAS 2012年第9期2403-2410,共8页 中南大学学报（英文版）

基金 Project(51174020) supported by the National Natural Science Foundation of China

关键词热力学行为连铸过程模拟 YF45MnV钢表面温度基础凝固时间拉格朗日 mixed Lagrangian and Eulerian （MILE） method thermomechanical behavior continuous casting mold flux breaktemperature hot tearing indicator

分类号 TF777 [冶金工程—钢铁冶金]

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2012年第9期

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Simulation of thermomechanical behavior during continuous casting process based on MiLE method

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