铝和电石从含铈渣中还原铈

IF 0.3 Q4 METALLURGY & METALLURGICAL ENGINEERING
A. G. Upolovnikova, R. R. Shartdinov, A. N. Smetannikov
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引用次数: 0

摘要

摘要:随着人们对钢的性能要求越来越高,稀土元素(如铈)的微合金化是生产高质量产品的途径之一,即使在低浓度下,稀土元素也会显著影响钢的力学性能。为了降低钢的成本,合理的做法是通过氧化物系统的直接还原而不是添加铁合金来引入钢。为了研究这一过程,对含有15% Al2O3和8% MgO的CaO-SiO2-Ce2O3体系的炉渣在1550℃和1650℃下铝和电石还原铈的热力学模型进行了研究。采用HSC 6.12 Chemistry (Outokumpu)软件包,基于Gibbs能量最小化,采用单纯形点阵规划方法进行建模。在1550和1650℃的温度下,热力学建模的结果以成分-性能图(金属中的平衡铈含量)的形式呈现。当使用金属铝作为还原剂时,在1550℃温度下,将炉渣碱度(CaO/SiO2)从2提高到5,导致在0-15% Ce2O3浓度范围内,金属中平衡铈含量从2 ppm增加到20 ppm;即矿渣碱度的提高有利于铈还原的发展。金属温度的升高对铝还原铈也有积极的影响。当温度升高到1650℃时,在0-15% Ce2O3浓度范围内,金属中的平衡铈含量从4 ppm增加到30 ppm。使用电石作为还原剂导致金属中的铈浓度在1550°C和1650°C时分别增加到30和40 ppm,碱度为5。确定了炉渣碱度、氧化铈浓度和温度因素对铝电石还原铈的发展起决定性作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cerium Reduction by Aluminum and Calcium Carbide from Cerium-Containing Slags

Cerium Reduction by Aluminum and Calcium Carbide from Cerium-Containing Slags

Abstract—Under increasing requirements for the properties of steels, one of the ways to produce a high-quality product is microalloying with rare earth elements such as cerium, which can significantly influence the mechanical properties of steel even at low concentrations. To reduce the cost of steel, it is rational to introduce it into steel by direct reduction from oxide systems rather than by adding ferroalloys. To study this process, thermodynamic modeling of cerium reduction by aluminum and calcium carbide from slags of the CaO–SiO2–Ce2O3 system containing 15% Al2O3 and 8% MgO at temperatures of 1550 and 1650°C is carried out. The modeling is performed using the HSC 6.12 Chemistry (Outokumpu) software package based on Gibbs energy minimization using the simplex lattice planning method. The results of thermodynamic modeling are presented in the form of composition–property diagrams (equilibrium cerium content in a metal) for temperatures of 1550 and 1650°C. When metallic aluminum is used as a reducing agent, an increase in the slag basicity (CaO/SiO2) from 2 to 5 at a temperature of 1550°C leads to an increase in the equilibrium cerium content in the metal from 2 to 20 ppm in the concentration range 0–15% Ce2O3; that is, an increase in the slag basicity favorably affects the development of cerium reduction. An increase in metal temperature also exerts a positive effect on cerium reduction by aluminum. When the temperature increases to 1650°C, the equilibrium cerium content in the metal increases from 4 to 30 ppm in the concentration range 0–15% Ce2O3. The use of calcium carbide as a reducing agent leads to an increase in the cerium concentration in the metal to 30 and 40 ppm at 1550 and 1650°C, respectively, at a basicity of 5. The decisive role of slag basicity, cerium oxide concentration, and temperature factor in the development of cerium reduction by aluminum and calcium carbide has been confirmed.

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来源期刊
Russian Metallurgy (Metally)
Russian Metallurgy (Metally) METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
0.70
自引率
25.00%
发文量
140
期刊介绍: Russian Metallurgy (Metally)  publishes results of original experimental and theoretical research in the form of reviews and regular articles devoted to topical problems of metallurgy, physical metallurgy, and treatment of ferrous, nonferrous, rare, and other metals and alloys, intermetallic compounds, and metallic composite materials. The journal focuses on physicochemical properties of metallurgical materials (ores, slags, matters, and melts of metals and alloys); physicochemical processes (thermodynamics and kinetics of pyrometallurgical, hydrometallurgical, electrochemical, and other processes); theoretical metallurgy; metal forming; thermoplastic and thermochemical treatment; computation and experimental determination of phase diagrams and thermokinetic diagrams; mechanisms and kinetics of phase transitions in metallic materials; relations between the chemical composition, phase and structural states of materials and their physicochemical and service properties; interaction between metallic materials and external media; and effects of radiation on these materials.
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