钛精矿

第二方案以钛精矿为原料，还原后经破碎磁选分离得到粒铁和TiO2富集率为～75%的钛渣。

The other is wholly feed as ilmenite , then by crushing and magnetic separation after reduction , iron shots and slag , of which the enrichment ratio of titanium oxides could reach by 70 % ~ 76 % , can be gotten .

微细粒级钛精矿振动流化床的传热特性

Heat transfer characteristics of minute particle ilmenite in vibro-fluidized bed

H2SO4分解富钛精矿的反应动力学

Kinetics of acidolysis of rich titanium concentrate by H_2SO_4

对承钢黑山铁矿TiO2品位33%左右的粗钛精矿进行了不磨矿的粗粒级浮选或磨矿后细粒级浮选试验研究；

The trial researches are conducted separately with coarse-grain flotation without grinding and fine-grain flotation after grinding for crude titaniferous concentrate with TiO2 grade of about 33 percent .

年产浮选细粒钛精矿8万吨左右，年消耗MOS捕收剂近500吨，故仍存在回收率不够高和用量大等问题。

Fine ilmenite concentrate produced per year was about 80,000 t , but the collectors were used up about 500t , so the MOS collector have the same big quantity question .

在1800kVA敞口电炉上采用自焙电极和粉矿入炉方式，用冶金焦还原钛精矿获得TiO2为76.76%的酸溶钛渣。

A kind of acidic titania slag which TiO_2 equals to 76.76 % is obtained in the open furnace ( 1800kVA ) which uses baked electrode .

在富钛精矿酸解所得的溶液中加入KCl，便形成以KAl（SO4）2为主的沉淀，过滤沉淀可以去除Al3+杂质。

KCl was added into rich titanium solution containing Al 3 + to produce KAl ( SO 4 ) 2 as precipitate , Al 3 + in solution was removed .

目前，省内初选的钛精矿Ti02品位约为46%。

At present , in province , TiO2 grade of the rough titanium concentrates in Yunnan province is about 46 % .

采用攀钢矿业公司设计研究院研制的R-2或R-3捕收剂，得到了TiO2品位47%以上的钛精矿，浮选开路收率约65%。

The titaniferous concentrate with TiO2 grade of above 47 percent is got by means of R-2 or R-3 trapping agent developed by the Design and Research Institute of Pan Steel Mine Company , and open circuit recovery rate reaches about 65 percent .

用攀枝花钛精矿制取高品位富钛料的途径

Methods of preparing high grade titania feedstock from Panzhihua titanium concentrate

承钢烧结配加新西兰钛精矿的工业试验

Plant test of sintering with proportioning of titanium concentrates from New Zealand

利用塞曼分裂中σ土成分-原子吸收光谱法测定钛精矿中高含量镁

FAAS Determination of high contents of magnesium in titanium ores magnesium salicylate

攀枝花钛精矿制取高品位氯化渣探讨

Study of Producing High Content of Titanium Slag by Using Panzhihua Ilmenite

电炉冶炼钛精矿的数学模型

Mathematical Model for Smelting Ilmenite Concentrate in Electric Furnace

用攀枝花钛精矿冶炼钛铁的探讨

Analysis of ferrotitanium smelting process using Panzhihua titanium concentrate

微波场中不同配碳量钛精矿的吸波特性微波场中钛精矿的温升行为及吸波特性

The Temperature Rise Behavior and Microwave-absorbing Characteristics of Ilmenite Concentrate in Microwave Field

微波加热干燥钛精矿研究

Investigation of the Microwave Drying of Titanium Concentrate

降低我国原生钛精矿选矿生产成本的途径

The way to lower the cost of production of primary titanium concentrate in China

钛精矿回转窑还原制取富钛料补充试验研究

Supplementary Test of Enriched Ti Material Preparation with Rotary Kiln Material from Ti Concentrate

微波处理钛精矿新工艺

New technology of titanium Concentrate by microwave reduction

承钢黑山铁矿粗钛精矿浮选试验研究

Trial research of flotation for crude titaniferous concentrate

燃烧碘酸钾容量法测定钛精矿（岩矿）中的硫

Measurement of Sulfur in Titanium Concentrate ( Rock Ore ) by Combustion Iodometric Method

攀枝花钛精矿短流程直接制备钛铁合金

Preparation of TiFe Alloy by Direct Reduction Ilmenite

由钛精矿直接制取富钛料新工艺煅烧条件的研究

Study on the Calcination Condition of New Preparation Technology of Ti-rich Material from Ilmenite Concentrate

球团型；微波加热钛精矿含碳球团制取初级富钛料的研究

The ball-like ; Preparation of Primary Titanium Materials form Self-Reduced Pellet of Titanium Concentrate by Microwave Reduction

微波加热还原钛精矿制取富钛料新工艺

Research on New Technology of Making High-grade Titanium-rich Material from Self-reduced Pellet of Titanium Concentrate by Microwave Reduction

振动流化床中微细粒级钛精矿的传热特性卧式外加热真空炉

Heat Transfer Characteristics of Ilmenite Fine-particles in an Aerated Vibro-fluidized Beds with Horizontal Heating Tubes Horizontal external heating vacuum furnace

浅析攀枝花钒钛磁铁矿钒的分布规律用攀枝花钛精矿制取高品位富钛料的途径

Analysis of vanadium distribution regularity in Panzhihua Vanadium-titanium Magnetite Mine METHODS OF PREPARING HIGH GRADE TITANIA FEEDSTOCK FROM PANZHIHUA TITANIUM CONCENTRATE

从钛精矿制取富钛料（或人造金红石）及铁粉的新工艺&原磁选法

A new technology for producing titanium-rich material ( or synthetic rutile ) and iron power from ilmenite concentrate by Reduction-Magnetic separation process

钛精矿盐酸浸出法人造金红石&氯化法制造钛白或海绵钛流程。

Titanium dioxide or sponge titanium is produced by chloride process form synthetic rutile made from the ilmenite by hydrochloric acid leaching method .