cao - sio2 - b2o3基无氟助焊剂中TiO2和TiN夹杂物的溶解

IF 5.6 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Minerals, Metallurgy, and Materials Pub Date : 2023-08-25 DOI:10.1007/s12613-023-2622-9
Dawei Cai, Li Zhang, Wanlin Wang, Lei Zhang, Il Sohn
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引用次数: 0

摘要

结晶器助熔剂具有吸收夹杂物的重要冶金功能,直接影响铸造过程的平整度和铸坯质量。本研究采用原位单热电偶技术结合x射线光电子能谱技术,探讨了TiO2和TiN夹杂物在熔融的无氟结晶器熔剂中溶解的行为和机理。结果表明:TiO2包体在76 s内被熔渣有效溶解,在此期间原八面体[TiO6]8?结构被破坏并转化为网状四面体[TiO4]4?结构。然而,TiN包裹体的溶解速率远低于TiO2包裹体。这可以归因于TiN颗粒需要被氧化,然后溶解在熔渣中形成四面体[TiO4]4?八面体[TiO6]8?TiN夹杂物在溶解过程中,伴随着大量N2气体的生成。此外,CaTiO3晶体倾向于在具有足够八面体[TiO6]8?结构和Ca2+离子,最终导致熔渣处于固液混合状态。
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Dissolution of TiO2 and TiN inclusions in CaO–SiO2–B2O3-based fluorine-free mold flux

Mold flux serves the crucial metallurgical function of absorbing inclusions, directly impacting the smoothness of the casting process as well as the cast slab quality. In this study, the dissolution behavior and mechanism of TiO2 and TiN inclusions in molten CaO–SiO2–B2O3-based fluorine-free mold flux were explored by in situ single hot thermocouple technology combined with X-ray photoelectron spectroscopy. The results showed that TiO2 inclusions are effectively dissolved by the molten slag within 76 s, during which the original octahedral [TiO6]8? structures are destroyed and convert to the networker tetrahedral [TiO4]4? structures. However, the dissolution rate is much lower for TiN inclusions than for TiO2 inclusions. This can be attributed to the fact that the TiN particles need to be oxidized and then dissolved in the molten slag to form tetrahedral [TiO4]4? and octahedral [TiO6]8? structures during the TiN inclusion dissolution process, which is accompanied by the generation of a large amount of N2 gas. Moreover, CaTiO3 crystals tend to nucleate and grow on bubble surfaces with sufficient octahedral [TiO6]8? structures and Ca2+ ions, eventually resulting in the molten slag being in a solid–liquid mixed state.

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来源期刊
CiteScore
9.30
自引率
16.70%
发文量
205
审稿时长
2 months
期刊介绍: International Journal of Minerals, Metallurgy and Materials (Formerly known as Journal of University of Science and Technology Beijing, Mineral, Metallurgy, Material) provides an international medium for the publication of theoretical and experimental studies related to the fields of Minerals, Metallurgy and Materials. Papers dealing with minerals processing, mining, mine safety, environmental pollution and protection of mines, process metallurgy, metallurgical physical chemistry, structure and physical properties of materials, corrosion and resistance of materials, are viewed as suitable for publication.
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