1)  Tiron
钛铁试刘
2)  Ferrotitanium
钛铁
1.
Rapid analysis of titanium content in ferrotitanium by diantipy rylmethane photometric method;
二安替比林甲烷光度法快速分析钛铁及钛芯线中钛
2.
Spectrophotometric determination of titanium in ferrotitanium with chromotropic acid;
变色酸光度法测定钛铁中钛
3.
Based on the features of Panzhihua titanium concentrate,the reasons why titanium recovery is low and aluminum consumption is high when ferrotitanium is smelted in alumino-thermic process were analyzed.
结合攀枝花钛精矿的特点,探讨了采用铝热法冶炼钛铁时钛回收率低、铝耗量高的原因,并提出了相应的解决措施。
3)  High Titanium Ferroalloy
高钛铁
1.
The situation of smelting high titanium ferroalloy in the laboratory is briefly introduced.
简述了实验室条件下用铝热法冶炼高钛铁(Ti>65%)的情况,讨论了影响钛回收率的主要素。
2.
At present producing of high titanium ferroalloy mainly.
高钛铁是一种用途较为广泛的特种铁合金,是冶炼铁基高温合金和优质不锈钢不可缺少的材料,尤其是在提高军用、航空等高级合金钢的质量方面有着不可取代的作用。
4)  titaniferous iron concentrate
钛铁精矿
1.
High iron and low silica sintering techniques of titaniferous iron concentrate;
含钛铁精矿高铁低硅烧结技术
5)  Ilmenite
钛铁矿
1.
Microreaction mechanism of the reduction of ilmenite to iron by H_2~+ ion implantation;
H_2~+注入法研究钛铁矿还原微观机理
2.
The recovery of the fine particle ilmenite in Panzhihua;
攀枝花微细粒级钛铁矿的回收
3.
Research on Panzhihua ilmenite flotation by using TAO collector series;
TAO系列捕收剂选别攀枝花钛铁矿的研究
6)  V-Ti containing molten iron
钒钛铁水
1.
During the smelting process for V-Ti containing molten iron,we can increase the convertor life by improve the walling up technology,using the one-go operation,decreasing the tapping temperature,restructurding the slag system and improving the effectivensee of slag-splashing for protecting of converter and so on.
介绍了承钢采用双联工艺,在用含钒钛铁水炼钢生产过程中通过改进砌炉工艺,执行一次拉成出钢操作,降低出钢温度,改造渣系,提高溅渣护炉效果等措施的实施大幅度提高转炉炉龄,为不同生产条件下提高炼钢炉龄提供了借鉴。
参考词条
补充资料:试钴铁灵
分子式:C10H5NNa2O8S2
分子量:377.27
CAS号:525-05-3

性质:金黄色结晶或结晶性粉末。在100g水中的溶解度,冷时为2.5g,热时为10g。微溶于甲醇和乙醇。其中性溶液和酸性溶液均呈浅黄色,其碱性溶液呈橙黄色。

制备方法:由R盐经歪硝化而制得。将R盐溶于水中,加入浓盐酸,冷至5℃。在剧烈搅拌下,缓缓搅拌下,缓缓滴加预先冷却的亚硝酸钠溶液。加毕,继续搅拌15min。过滤,用水洗杂质,再加乙醇洗涤一次即得纯品。

用途:该品是测定痕量钴最灵敏的试剂。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。