Production of ferrotitanium alloy from titania slag based on
Ferrotitanium alloy are prepared from titania slag through aluminothermic reduction. Ferrotitanium alloy contains 30.5 wt% Ti, 8.4 wt% Al, and 3.2 wt% Si. Contents Ferrotitanium is a ferroalloy composed of titanium and iron, with occasional trace carbon. It was first discovered in 1798 by W. Gregor and was partially purified by H. Ferrotitanium Properties, Applications AZoM
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Reaction mechanism and kinetics of ferrotitanium
Ferrotitanium alloys are widely used in the steel industry and are an important alloy additive in the production of specialty steels. [1],[5],[6] . There are First Online: 08 June 2023. Download reference work entry PDF. Ferrotitanium is the alloy of titanium and iron. It is an important deoxidizer, alloying agent, and denitrifying agent in Ferrotitanium SpringerLink
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Microstructural characterization of ferrotitanium and ferroniobium
The ferrotitanium alloy contained ~ 10 wt.% of impurities (Al, Si and V) and was made up of 5 phases. The main phases were a β-Ti solid solution and a Ti–Fe–Al Carboaluminothermic Production of Ferrotitanium from Ilmenite Through Thermal Plasma. Ilmenite is the prime mineral used for the production of titania-rich slag Production of ferrotitanium alloy from titania slag based on
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ferrotitanium_百度百科
ferrotitanium,英語單詞,主要用作名詞,作名詞時譯為“鐵鈦合金”。To reduce the consumption of aluminum in the traditional production process of ferrotitanium, the use of economic electrical energy is considered to replace the chemical energy provided by the reaction of aluminum and heating agent. Analysis of slag by x-ray diffraction (XRD) and FactSage 7.2 revealed that heating-assisted Heating-Assisted Preparation of Ferrotitanium to Recover
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Multistage desulfurization mechanism to reduce sulfur
High ferrotitanium is used as a deoxidizer and alloying agent in steelmaking processes and is mainly produced using high-cost remelting processes. The thermite method is a simple and low-cost method for preparing low ferrotitanium. However, the high levels of S, Al, and O residues in the product severely restrict its applicability in Ferrotitanium is a ferroalloy, an alloy of iron and titanium with between 10 –20% iron and 45– 75% titanium and sometimes a small amount of carbon. It is used in steelmaking as a cleansing agent for iron and steel; the titanium is highly reactive with sulfur, carbon, oxygen,Ferrotitanium (FeTi) Storyblok
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Enhanced thermal shock resistance of ZrO ScienceDirect
In this work, ferrotitanium slag was used as the main raw material for composites preparation. Enhanced thermal shock resistance were obtained by adding 12.5 wt.% unstabilized monoclinic zirconia. A systematic analysis of the phase compositions and microstructural evolution with particular attention to crack propagation was performed. This paper reports a promising method to decrease the operating temperature during electrolysis of natural ilmenite to produce a porous and laminar flake-type intermetallic ferrotitanium (Fe x Ti, x = 1, 2) with a thickness of less than 1 μm by choosing a LiCl-Li 2 O electrolyte with a lower operating temperature (625 °C) under an Direct Electrochemical Reduction of Natural Ilmenite into Ferrotitanium
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Distribution and Control Mechanism of Al and O Residuals in
Ferrotitanium is mainly used as a deoxidizer, degassing agent, and carbon sulfur stabilizer in steel production, as well as an electrode flux and hydrogen storage material.1 The aluminothermic reduction method is a simple approach to produce ferrotitanium.2 However, ferrotitanium prepared by this method has high content of Al @article{osti_1004984, title = {The Use of Manganese Substituted Ferrotitanium Alloys for Energy Storage}, author = {Johnson, J R and Reilly, J}, abstractNote = {Experimental results are presented on properties of major practical importance in the utilization of manganese-substituted ferrotitanium alloys as hydrogen storage media. . Consideration is given to (1) The Use of Manganese Substituted Ferrotitanium Alloys for Energy
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Ferrotitanium Properties, Applications AZoM
Ferrotitanium is a ferroalloy composed of titanium and iron, with occasional trace carbon. It was first discovered in 1798 by W. Gregor and was partially purified by H. Moissan in 1895. It can be obtained by melting scrap titanium together with steel or iron in an induction furnace. The alloy is highly reactive with nitrogen, oxygen, carbon and吴建锋教授简介. 吴建锋,工学博士、教授、博士生导师。. 武汉理工大学材料科学与工程学院、硅酸盐建筑材料国家重点实验室博士生导师,我国知名陶瓷专家;中国硅酸盐学会陶瓷分会副理事长,工业陶瓷专业委员会主任,湖北省硅酸盐学会陶瓷分会理事长武汉理工大学材料科学与工程学院欢迎您
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Formation Mechanism and Distribution of Al and O in the Ferrotitanium
Ferrotitanium is used as a deoxidizer, a degassing agent and an alloying element additive in the steel industry.1 It is a key additive in the smelting of special steel and structural steel, which can reduce the segregation of steel ingots and increase the strength, corrosion resistance and stability of the steel.2 Ferrotitanium with a Ti content less than Production of ferrotitanium alloy from titania slag based on aluminothermic reduction, Journal of alloys and compounds, 2019, 810(11), 151969. (SCI检索) [7] Wang Zhenyang, Zhang Jianliang, Liu Zhengjian, 王振阳 USTB
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Evaluation of remelting low-fluxing ferrotitanium slag as a
Ferrotitanium slag is a byproduct of smelting ferrotitanium with thermite reduction. Low-fluxing ferrotitanium slag (LFS) is the main type of dumping slags produced by ferrotitanium smelting. In this study, an electric arc furnace was used to prepare remelting LFS (RLFS) for homogenization and impurity removal.Abstract Ilmenite is the prime mineral used for the production of titania-rich slag and ferrotitanium alloy throughout the globe. In the current research, a 30 kW DC extended arc plasma reactor is employed for the aluminothermic reduction of ilmenite into ferrotitanium. For low-temperature operation, flux is added targeting low melting slag Carboaluminothermic Production of Ferrotitanium from
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Formation Mechanism, Evolution and Modification of Non
The formation mechanism of transient Al-(Mg)-Ti-O inclusions in Al-killed, Ti-alloyed steel has also been discussed in detail. The influence of important process parameters such as the addition sequence of Ti, its sources (Ti/ferrotitanium type), the presence of Mg and the Ca treatment for the modification of Al-Ti-O have been covered. 更多相关文档 GB T 8541-2012 锻压术语 星级: 176 页 GB/T 28506-2012 国内No.7信令方式技术要求 GSM移动电话用户部分(MTUP) 星级: 72 页 GB/T 28547-2012 交流金属氧化物避雷器选择和使用导则GB/T 3282-2012 钛铁 道客巴巴
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Metals Free Full-Text Preparation of Ferrotitanium Using
The effect of ilmenite with different reduction degrees on the production of ferrotitanium, using a self-propagation high-temperature synthesis method with aluminum as the reducing agent, was investigated. Increasing the degree of reduction not only contributed to lower consumption of aluminum, but also lowered the oxygen content and improved DOI: 10.1016/j.jeurceramsoc.2020.05.004 Corpus ID: 218944916; Preparation and characterization of alumina/calcium-hexaluminate ceramic composites from ferrotitanium slag @article{Wu2020PreparationAC, title={Preparation and characterization of alumina/calcium-hexaluminate ceramic composites from ferrotitanium slag}, Preparation and characterization of alumina/calcium
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Sulfur distribution in preparation of high titanium ferroalloy
Ferrotitanium (FeTi) is one of the most important master alloys containing titanium. It is mainly used as a deoxidizer and alloying agent during the steelmaking, which plays a great role in improving the quality of the high alloy steel in military and aeronautical industries [1, 2].Sulfur is a well-known harmful impurity in the steelmaking, and it exists in
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