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针对目前电渣重熔行业存在的高能耗问题,提出利用振动电极技术来提高熔化率。通过对振动电极电渣炉实验数据和作用机理的综合分析,建立了振动电极作用下电渣重熔系统的数学模型。在Matlab/Simulink环境下仿真,通过对仿真结果与实验所得数据和传统电渣炉重熔数据的分析比较,验证了将振动电极技术应用在电渣重熔工艺中可以有效提高电极熔化率,达到节能降耗的目的,为振动电极电渣炉的工业化应用提供了理论依据。
Aiming at the problem of high energy consumption in the ESR industry, it is proposed that the vibration electrode technology be used to improve the melting rate. Through the comprehensive analysis of the experimental data and mechanism of the vibrating electrode electroslag furnace, the mathematical model of the electroslag remelting system under the action of the vibrating electrode is established. In the simulation of Matlab / Simulink environment, through the simulation results and experimental data and the traditional electroslag remelting data analysis and comparison, the verification of the vibration electrode technology in the ESR process can effectively improve the electrode melting rate, to The purpose of saving energy and reducing consumption provides a theoretical basis for the industrial application of vibrating electrode electroslag furnace.