摘要
探讨以钒钛磁铁矿直接还原—电炉熔分工艺得到的50钛渣为原料生产钛制品的应用技术路线。首先,对50钛渣的化学成分和物相进行研究,设计出3条以50钛渣为原料的钛制品生产路线,即制备70钛铁、制备钛白粉以及制备钛铝合金,通过原料配比计算、产品的理论成分计算来研究其可行性。此外,研究了CaO对出炉渣含量的影响,找出了有利于渣—金分离的CaO最佳含量。最后,讨论了3条技术路线中的环保和能源分析以及经济衡算分析,得出以50钛渣为原料制备钛铝合金为最佳的技术路线方案。
The predecessors reported more about research on application technology roadmap of acid-solu- ble titanium slag and high titanium slag. There is no report on the use of 50 titanium slag from the direct reduction of non-blast furnace smelting technology, but there are no reports on the use of 50 titanium slag from the direct reduction of non-blast furnace smelting technology. Thus, this paper has investigated the application technology route of 50 titanium slag as raw material for the production of titanium products. At first, the chemical composition and phase of 50 titanium slag are studied, and then three main titanium production lines of 50 titanium slag are discussed, such as the preparation of 70 titanium iron, the prepara- tion of titanium dioxide and titanium aluminum alloy. Using raw materials proportioning calculations and the theoretical composition calculations of the product study its feasibility. In addition, the effect of CaO on the content of slag has been studied, and the optimum content of CaO which is conducive to slag-alloy separation has been discussed. Finally, the environmental protection, energy consumption analysis and eco- nomic balance analysis of the three technical routes are discussed, and it is found that the preparation of titanium aluminum alloy with 50 titanium slag as the raw material is the best technical route program.
出处
《钢铁钒钛》
CAS
北大核心
2017年第6期13-22,共10页
Iron Steel Vanadium Titanium
基金
国家自然科学基金资助(项目编号:51174122)
关键词
50钛渣
钛铁合金
钛白粉
钛铝合金
配料计算
应用技术路线
50 titanium slag, ferrotitanium alloy, titanium pigment, titanium aluminum alloy, application technology route
