1) high titanium slag
高钛渣
1.
The high titanium slag smelted with pellet in electric furnace,titanium slag smelted in oxidizing-roasting closed electric furnace,titanium slag smelted in pre-reducing closed electric furnace,titanium slag smelted with ore fines in electric furnace and research and development of PUS slag are introduced in detail.
重点介绍了用攀枝花钛精矿球团冶炼高钛渣、氧化-密闭电炉冶炼高钛渣、预还原-密闭电炉冶炼高钛渣和粉矿直接入电炉冶炼高钛渣的小试、中试和半工业性试验结果,以及用攀枝花钛矿和云南钛矿制备高钛渣的对比试验结果。
2.
Taking 94% and 90% high titanium slag as the raw material respectively to produce crude TiCl4 through boiling chloridization process,the effects of two kinds of high titanium slag on boiling chloridization process was analyzed.
分别以94%品位高钛渣和90%品位高钛渣为原料,采用沸腾氯化工艺制备粗TiCl4,分析了两种品位高钛渣对沸腾氯化工艺的影响。
3.
开发出一种低温快速还原钛铁矿生产高钛渣的新工艺,该工艺将钛铁矿和碳质还原剂(如煤粉)粉体的粒度磨细到10μm左右时,可在600℃左右实现快速还原反应将铁还原出来,冷却后通过磁选分离方式得到高钛渣和铁粉。
2) high-titanium slag
高钛渣
1.
Through the experimental study on degradation of ortho-nitrophenol solution with high-titanium slag as photocatalytic materials, the effects of reaction time, oxidant H_2O_2, electric voltage and pH value of solutions on photacatalytic activity were investigated.
通过以高钛渣为光催化材料降解邻硝基酚溶液的实验,研究了反应时间、添加强氧化剂H2O2、外加电场、溶液 pH值对其光催化性能的影响。
3) Titanium slag
高钛渣
1.
Cleaner Production Process of Titanium Dioxide by Decomposition of Titanium Slag with Molten Sodium Hydroxide
氢氧化钠熔盐分解高钛渣制备二氧化钛清洁新工艺的研究
2.
A new process was proposed for decomposition of titanium slag in molten sodium alkali under atmospheric pressure to prepare titanium dioxide.
提出了一种常压下钠碱熔盐分解高钛渣制备二氧化钛的新工艺,对高钛渣与钠碱的熔盐反应过程进行了热力学分析及动力学研究,探讨了反应温度、矿粒径对钛转化率的影响,以及钛在熔盐反应中的溶出行为。
3.
On the bases of former researches,a new clean production process of titanium dioxide by decomposition titanium slag with high reactivity NaOH molten salt(MS) was proposed in the present paper.
本论文在课题组前期研究基础上,提出了二氧化钛清洁生产新工艺,该工艺以高钛渣为原料,以高活性的氢氧化钠熔盐为反应介质,从源头消除了对环境的污染,实现了钛资源有价组分的综合利用。
4) high titania slag
高钛渣
1.
Effects of initial compositions and nitrogen flow rate on TiN/β′-sialon powder synthesized from high titania slag;
配料组成和氮气流量对高钛渣合成TiN/β′-sialon粉体的影响
2.
The corrosion behavior of MgO-C brick and Al2O3-C brick immersed in high titania slag was investigated.
研究了镁碳砖和铝碳砖在高钛渣中的侵蚀行为。
5) titania slag
高钛渣
1.
impedance technique, the effects of TiC particle on the conductivities of titania slag with composition of 24.
3%TiO_2高钛渣的电导率与TiC含量及粒度的关系。
2.
The conductivity of the titania slag and the relationship between the conductivity and the size and the concentration (wt%) of TiC particles were studied.
研究了高钛渣电导率与TiC含量、粒度的关系。
6) high titanium slags
高钛渣
1.
Experimental investigation on high temperature roasting of high titanium slags
高温焙烧高钛渣工艺的试验研究
补充资料:7000kV的高钛渣冶炼电炉(锦州铁合金厂)
7000kV的高钛渣冶炼电炉(锦州铁合金厂)
7000kV高钛渣冶炼电炉(锦州铁合金厂)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条