ANALYSIS OF THE STRUCTURAL-CHEMICAL MILL DUPLEX-SYSTEMS OF SILICATE-SILICIDE OF LUNG-EARTH METALS. Message 3. The mechanism of desulfurization in the smelting of blast-furnace pig iron

Protsessy lit''ia Pub Date : 2023-06-01 DOI:10.15407/plit2023.02.033

B. Belov, A. Trotsan, O. Vlasova

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Abstract

The mechanism of cast iron desulfurization through structural and chemical reactions in smelting slags corresponding to the composition of the main mineral phases is presented: monticellite (MT, SiO2MgOCaO) → mervinite (MP, 2SiO2MgO3CaO) → ockermannite (OK, 2SiO2MgO2CaO) →diopside (DP, 2SiO2MgOCaO) → rankinite (pH, 2SiO23CaO) and eutectic slags (E, 3SiO2MgO4CaO). A sequential series of adsorption capacity of slag phases with respect to sulfur (АС, mas. %) and the depth of metal desulfurization – Δ(S), ppm was determined: Е (3.54/36) → MR (4.8/49) → OK (5, 7/59) → DP (7.14/74) → MT (9.8/103) → RN (20/222). In factory conditions, the efficiency of smelting slags of eutectic composition and diopside for ladle processing of cast iron was tested. The expediency of using such blast furnace slags for ladle processing of cast iron has been established, which at a consumption of 5-10 kg/t provide a desulfurization depth of 200-400 ppm. The consumption of slag is significantly reduced with the additional deoxidation of smelting slags with carbon during the release of melt in the ditch of the foundry and in the pig iron ladle.

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LUNG-EARTH金属硅酸盐-硅化物的结构-化学磨双组分系统的分析。消息3。高炉生铁冶炼中的脱硫机理

介绍了通过冶炼渣中与主要矿物相组成相对应的结构和化学反应进行铸铁脱硫的机理：蒙脱石（MT，SiO2MgOCaO）→ 红柱石（MP，2SiO2MgO3CaO）→ 奥氏体（OK，2SiO2MgO2CaO）→透辉石（DP，2SiO2MgOCaO）→ 钾铁矿（pH，2SiO23CaO）和共晶渣（E，3SiO2MgO4CaO）。确定了渣相对硫的吸附能力（АС，mas.%）和金属脱硫深度Δ（S），ppm的顺序序列：→ MR（4.8/49）→ 好（5/7/59）→ DP（7.14/74）→ MT（9.8/103）→ RN（20/222）。在工厂条件下，测试了共晶成分和透辉石的熔渣用于钢包铸铁加工的效率。已经建立了将这种高炉渣用于铸铁的钢包处理的方便性，其在5-10kg/t的消耗下提供200-400ppm的脱硫深度。在铸造厂的沟渠和生铁钢包中释放熔体期间，通过用碳对熔炼炉渣进行额外脱氧，显著降低了炉渣的消耗。

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Protsessy lit''ia

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8 weeks