titaniferous

titaniferous

1. Analytical Method of Safety Risk for Titaniferous Orthopaedic Fixer used CDIC Maxillofacial and Cranial Surgery

CDIC颌面及颅外科用钛骨固定器的安全风险分析方法

2. Cu-Fe-Ni sulfides are disseminated both in the core of titaniferous iron ore and in some other rocks.

Cu-Fe-Ni硫化物星散分布于钛磁铁矿核心部分以及其他几种岩石中。

3. Cu-Fe-Ni sulfides are disseminated both in the core of titaniferous iron ore and in the diallagite pegmatoid.

Cu-Fe-Ni硫化物星散分布于钛磁铁矿核心部分以及易剥辉石似佛晶岩中。

4. PAN Chun-yue,HUANG Ke-long,TANG You-gen,et al.Centerifugal separation of ferrous and titaniferous impurities from kaolin[J].Multipurpose Utilization of Mineral Resources,1998(4):25-27.

[5]潘春跃,黄可龙,唐有根,等.离心分离高岭土中铁、钛杂质[J].矿产综合利用,1998(4):25-27.

5. [Abstract] The isothermal and non-isothermal kinetics of the oxidation of titaniferous slag in air were investigated by the thermal gravimetric technique.

[摘 要] 用热重法研究了高钛渣在空气中的等温和非等温氧化动力学。

6. medium titaniferous slag

中钛渣

7. Keywords sub-molten salt method;titaniferous slag;whisker;potassium titanate;titanium dioxide;

亚熔盐法;高钛渣;晶须;钛酸钾;二氧化钛;

8. The conception of titanium concentrates,titaniferous slag,high titaniferous slag,synthetic rutile and natural rutile are introduced in this paper.

介绍了富钛料、钛渣、高钛渣、人造金红石、金红石的基本概念和富钛料的主要用途。

9. The basic principle for electric smelting of titaniferous slag is introduced and the behaviors of titanium element in DC furnace are analyzed.

介绍了电炉冶炼钛渣的基本原理,分析了直流电炉冶炼钛渣时,钛元素的行为。

10. Present status of utilization for Panxi titaniferous resources was introduced and analyzed in this paper,and some suggestions for further utilizing the titaniferous resources were proposed.

介绍并分析了攀西钛资源的利用现状，对进一步利用钛资源提出一些建议。

11. The experimental study of foaming phenomenon of titaniferous slag during V-Ti-bearing magnetite smelting was conducted using different additions.

从配加添加剂的角度研究全钒钛矿冶炼时，含钛高炉渣的起泡现象。

12. Study of the Photocatalytic Decomposition of Water over Titaniferous Oxides Catalysts

光催化分解水制氢用含钛氧化物催化剂的研究

13. Keywords TiO2;photocatalytic activity;titaniferous blast-furnace slag;

光催化性能;含钛高炉渣;陶瓷釉料;

14. titaniferous pig iron

含钛生铁

15. titaniferous magnetite deposit

含钛磁铁矿矿床

16. High iron and low silica sintering techniques of titaniferous iron concentrate

含钛铁精矿高铁低硅烧结技术

17. titaniferous ferromanganese

含钛锰铁

18. Titaniferous Blast- Furnace

含钛高炉渣

19. The Present State and Perspective of the Titaniferous Blast-Furnaces Utilization

含钛高炉渣的利用现状与展望

20. The un-reacted-core shrinking model can be used to describe the oxidation process of titaniferous slag.

实验结果表明，高钛渣氧化动力学可用缩核模型来描述。

21. Keywords titanium concentrates;Reduction smelting;Acid leaching;Reductive leaching;Titaniferous slag;Synthetic rutile;Suggestions of development;

富钛料;电炉熔炼法;酸浸法;还原锈蚀法;钛渣;人造金红石;发展建议;

22. Making of ductile iron pipe use of semi-steel which come from ore-smelting furnace of smelting titanic slaguse of titaniferous ore are discuss in this paper.

对用冶炼高钛渣的副产半钢生产球墨铸管的可行性进行了研究。

23. TRIAL RESEARCH OF FLOTATION FOR CRUDE TITANIFEROUS CONCENTRATE

承钢黑山铁矿粗钛精矿浮选试验研究

24. The technology of fast fluidized beds to exploit vanadium bearing titaniferous ma...

提出了综合利用钒钛铁矿所需采用的快速流化床氯化技术。

25. New operation regulations suiting the sintering production of V-bearing titaniferous magnetite in Panzhihua I&S Co. and the best method to optimize the RDI of the sinter are propased.

提出了适合于攀钢钒钛磁铁矿烧结新的操作制度及改善钒钛烧结矿RDI的最有效方法。

26. A new treatment process for titaniferous blast furnace slag at Pangang using phase separation was put forward.

提出采用相分离法处理攀钢高炉渣新工艺。

27. Constructing Saving-style Society, Creating Environmental Friendly Industry, Progress With Each Passing Day Deepening Comprehensive Utilization of Panxi V-containing Titaniferous Magnetite

构建节约型社会打造环境友好产业与时俱进地深化攀西钒钛磁铁矿综合利用

28. Keywords physical and chemical property;pre-reduced pellets;molten slag;vanadium-bearing titaniferous magnetite;electric conductivity;viscosity;

理化性能;预还原球团;熔分渣;钒钛磁铁矿;电导率;粘度;

29. Keywords DC furnace;smelting;titaniferous slag;distribution of elements;

直流电炉;冶炼;钛渣;元素分配;

30. Investigation on Ti Distribution in Smelting of Titaniferous Slag in DC Furnace

直流电炉冶炼钛渣时钛元素分配研究

31. Keywords phase separation;titaniferous blast furnace slag;comprehensive utilizationP;

相分离法;含钛高炉渣;综合利用;

32. Titaniferous placer

砂钛矿

33. Keywords nanometer titanium dioxide;titaniferous solution;homogeneous precipitation;

纳米二氧化钛;钛液;均匀沉淀法;

34. 2 blast furnace at Magang and laboratory make-up slag samples were tested, the reasonable consists of the slag with smelting titaniferous ore was acquired.

通过对马钢第一、第二铁厂高炉现场炉渣及试验室配制渣样的性能测试与矿相分析,得出含钛矿炉渣的合理渣系结构,并建立了含钛炉渣成分与其性能之间的数学模型。

35. V - bearing titaniferous magnetite sinter

钒钛烧结矿

36. Keywords Al_2O_3;V-bearing titaniferous magnetite sinter;strength;production yield;existence form;

钒钛烧结矿;强度;成品率;赋存状态;

37. V - hearing titaniferous magnetite

钒钛磁铁矿

38. Keywords V-bearing titaniferous magnetite;low temperature reduction;sintering;

钒钛磁铁矿;烧结;低温还原;

39. Keywords titanium titaniferous alloy titaniferous equipment chemical industry;

钛;钛合金;钛制设备;化学工业;

40. titaniferous solution

钛液

41. titaniferous slag

钛渣

42. Keywords s:titanium slags;direct current;electrothermal process;ferrotitanium/blast furnace titaniferous slag;Ti-Si ferroalloy;

钛渣;直流电;电热法;钛铁;高炉钛渣;钛硅合金;

43. THE RATE OF REDUCTION OF TITANIFEROUS MAGNETITE

钛磁?矿的还原速率

44. Keywords ilmenite;reduction smelting;titaniferous slag;thermodynamic analysis;

钛精矿;电炉熔炼;钛渣;热力学;

45. Keywords titaniferous ore;high content;titanium slag;Panzhihua;

钛精矿;高品位;钛渣;攀枝花;

46. titaniferous iron ore

钛铁矿

47. Keywords Titaniferous iron;vertical ring pulsating high gradient magnetic separator;Magnetic separation;Recovery;Commercial experiment;

钛铁矿;立环脉动高梯度磁选机;磁选;回收率;工业试验;

48. titaniferous iron concentrate

钛铁精矿

49. Keywords titaniferous iron concentrate;sintering;Panzhihua;

钛铁精矿;烧结;攀枝花;

50. Keywords blast furnace;V-Ti bearing magnetite;medium titaniferous slag;smelting;

高炉;钒钛磁铁矿;中钛渣;冶炼;

51. Development of high titaniferous building slag brick

高钛型建筑矿渣砖的研制

52. Keywords BaO;titaniferous slag;foaming property;

高钛型高炉渣;起泡性能;

53. Oxidation kinetics of titaniferous slag

高钛渣氧化过程的动力学