Effect of SiO2 on the Crystallization Behaviors and In-Mold Performance of CaF2-CaO-Al2O3 Slags for Drawing-Ingot-Type Electroslag Remelting

Shi, Chengbin; Li, Jing; Cho, Jung‐Wook; Jiang, Fang; Jung, In‐Ho

doi:10.1007/s11663-015-0402-2

Cited by 64 publications

(27 citation statements)

References 20 publications

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“…The inappropriate horizontal heat transfer through slag film and/or poor lubrication performance of slag generally results in unreliable operating practice and surface defects on as-cast ESR ingot. 9,10) Therefore, in-depth knowledge on the melting and crystallization of low-fluoride ESR slag is necessary for the development of applicable low-fluoride slag.…”

Section: Development Of Low-fluoride Slag For Electroslag Remelting: mentioning

confidence: 99%

Development of Low-fluoride Slag for Electroslag Remelting: Role of Li<sub>2</sub>O on the Crystallization and Evaporation of the Slag

Zheng

Shi

2020

ISIJ Int.

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To reduce environmental pollution caused by fluoride from conventional electroslag remelting (ESR)-type slag and meet the requirements of vacuum ESR, it is strongly needed to develop low-fluoride and fluoridefree slag. The crystallization behaviors and evaporation of CaF 2 -CaO-Al 2 O 3 -MgO-Li 2 O slag as a candidate for low-fluoride ESR-type slag were studied. The sequence of crystal precipitation in CaF 2 -CaO-Al 2 O 3 -MgO-Li 2 O slag during cooling process was 11CaO·7Al 2 O 3 ·CaF 2 to CaO, followed by CaF 2 . The dominant crystalline phase in the slag was 11CaO·7Al 2 O 3 ·CaF 2 . The liquidus temperature and crystallization temperature of slag decreased significantly with increasing Li 2 O content from 1.59 mass% to 4.46 mass%. Increasing Li 2 O contents suppressed the crystallization behaviors of ESR-type CaF 2 -CaO-Al 2 O 3 -MgO-Li 2 O slag. The weight loss of the slag melts increased with increasing Li 2 O content in the slag from 1.59 mass% to 4.46 mass%. The gaseous species evaporated from the slag melts were mainly LiF and contained a few amounts of CaF 2 . A proper amount of Li 2 O could be considered as an effective component for the design of low-fluoride ESR-type slag. Serious fluoride evaporation of LiF from CaF 2 -CaO-Al 2 O 3 -MgO-Li 2 O slag melts takes place when Li 2 O content exceeds a critical value.

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Section: Development Of Low-fluoride Slag For Electroslag Remelting: mentioning

confidence: 99%

Development of Low-fluoride Slag for Electroslag Remelting: Role of Li<sub>2</sub>O on the Crystallization and Evaporation of the Slag

Zheng

Shi

2020

ISIJ Int.

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“…As the Drawing-Ingot-Type ESR needs the slag having the excellent high temperature plasticity, more than 4% silica needs to be added into molten slag. 3 , which makes the active alloying element control difficultly. Therefore, it is important to have a good understanding of titanium and aluminum control during Drawing-Ingot-Type ESR with stainless steel under different remelting process, slag and metal electrode composition.…”

Section: Introductionmentioning

confidence: 99%

Behavior of Alloying Elements during Drawing-Ingot-Type Electroslag Remelting of Stainless Steel Containing Titanium

Hou

Liu

et al. 2018

ISIJ International

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“…Furthermore, the aforementioned oxides can change physical as well as physicochemical properties of the slag such as viscosity, density, etc . For instance, a lubricative skin layer forms on the surface of a short collar (moveable) mold by addition of SiO 2 to the slag, that is, in favor of producing ingots with superior surface quality . The physicochemical properties are dependent on both temperature and composition of the slag.…”

Section: Uncertainties On Physical Properties Of Esr Slagsmentioning

confidence: 99%

“…[19] For instance, a lubricative skin layer forms on the surface of a short collar (moveable) mold by addition of SiO 2 to the slag, that is, in favor of producing ingots with superior surface quality. [25] The physicochemical properties are dependent on both temperature and composition of the slag. Due to the difficulty of measurements at elevated temperature, a large uncertainty of the properties exists.…”

Section: Uncertainties On Physical Properties Of Esr Slagsmentioning

confidence: 99%

Review on Modeling and Simulation of Electroslag Remelting

Kharicha

Karimi-Sibaki

et al. 2017

steel research int.

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The Electroslag Remelting (ESR) is an advanced technology for the production of high quality materials, for example, hot work tool steels or nickel base alloys. In the past years, several models are developed aiming to predict the way in which the operational parameters affect the structure and chemical composition of the final ESR ingot. Proper modeling of this process depends on the ability of the model to predict the Multiphysics resulting from the complex coupling between many physical phenomena. This review includes the main findings starting from the 1970's, with a special focus on the results obtained in the period of 1999-2017. The difficulties related to the poorly known physical properties of ESR slags are discussed. Then, the main achievements in the field of electromagnetism, fluid flow, heat transfer, and solidification are also summarized. The review finishes by presenting the special topics representing the actual scientific frontiers, such as the physics of mold current, the importance of multiphase phenomena, and the difficulties in predicting the electrode melting rate.

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Effect of SiO2 on the Crystallization Behaviors and In-Mold Performance of CaF2-CaO-Al2O3 Slags for Drawing-Ingot-Type Electroslag Remelting

Cited by 64 publications

References 20 publications

Development of Low-fluoride Slag for Electroslag Remelting: Role of Li<sub>2</sub>O on the Crystallization and Evaporation of the Slag

Development of Low-fluoride Slag for Electroslag Remelting: Role of Li<sub>2</sub>O on the Crystallization and Evaporation of the Slag

Behavior of Alloying Elements during Drawing-Ingot-Type Electroslag Remelting of Stainless Steel Containing Titanium

Review on Modeling and Simulation of Electroslag Remelting

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