采用ICP-OES、XRD和SEM-EDS分别对钨渣成分、物相及各元素分布状态进行分析.结果表明,钨渣的主要物相为铁/锰氧化物、硅酸盐及石英,钽和铌主要包裹于含硅、锰物相中.在此基础上,提出了钨渣稀盐酸脱硅?浓盐酸深度脱铁、锰的钽铌酸法富集新方法.考察钨渣中硅、铁、锰、钙和铝等杂质元素的脱除规律,获得最优工艺条件.在最优条件下,钨渣脱硅率可达70%以上,铁和锰的脱除率可分别达到98.01%和98.71%,钽和铌回收率分别为86.57%和82.48%,富集渣中钽和铌的品位分别达到2.81%和9.23%,可直接作为钽铌湿法冶炼工业原料.
@@@@The composition, phase and element distribution of tungsten slag were analyzed by ICP-OES, XRD and SEM-EDS, respectively. The results show that the main phases of tungsten slag are iron-manganese oxides, silicate and quartz. Tantalum and niobium are mainly encapsulated in silicon-manganese phases. Based on this analysis, a new method was proposed for tantalum and niobium enrichment which includes desilication with dilute hydrochloric acid and iron-manganese deeply removing with concentrated hydrochloric acid. The removal rules of silicon, iron, manganese, calcium and aluminum were investigated, and the optimum process conditions were obtained. Under the optimum process conditions, the desilication rate is over 70%, while the iron and manganese removal rates reach 98.01% and 98.71%, respectively. The recovery rates of tantalum and niobium reach 86.57%and 82.48%, respectively, and the tantalum and niobium grades in the enriched slag reach 2.81%and 9.23%, respectively. The enriched slag can be used as raw materials in tantalum and niobium hydrometallurgical industry.
参考文献
| [1] | 孔昭庆.新中国钨工业60年[J].中国钨业,2009(05):1-10,37. |
| [2] | 朱海玲,邓海波,吴承桧,何小民.钨渣的综合回收利用技术研究现状[J].中国钨业,2010(04):15-18. |
| [3] | 国家环境保护总局 .环境服务业发展报告[R].北京:国家环境保护总局,2006. |
| [4] | Lin Luo;Liu Kejun;Atsushi Shibayama .Recovery of tungsten and vanadium from tungsten alloy scrap[J].Hydrometallurgy,2004(1/2):1-8. |
| [5] | L. Luo;T. Miyazaki;A. Shibayama .A novel process for recovery of tungsten and vanadium from a leach solution of tungsten alloy scrap[J].Minerals Engineering,2003(7):665-670. |
| [6] | HAIRUNNISHA S;SENDIL G;RETHINARAJ J .Studies on the preparation of pure ammonium para tungsten from tungsten alloy scape[J].HYDROMETALLURGY,2007,85(2/4):67-71. |
| [7] | 戴艳阳,钟晖,钟海云.酸浸法从钨渣中回收铌、钽、钨[J].桂林工学院学报,2008(02):193-195. |
| [8] | 戴艳阳,钟海云,李荐,钟晖.钨渣中有价金属综合回收工艺[J].中南工业大学学报(自然科学版),2003(01):36-39. |
| [9] | DAI Y;ZHONG H;ZHONG H .Recovery leaching of niobium from metallurgical residues[J].Advanced Materials Research,2011,236/238:2554-2559. |
| [10] | 张立,钟晖,戴艳阳.钨渣酸浸与钠碱熔融回收钽铌的研究[J].稀有金属与硬质合金,2008(02):6-9,14. |
| [11] | 何季麟.钽铌电子材料新进展[J].中国有色金属学报,2004(z1):291-300. |
| [12] | Zhaowu Zhu;Chu Yong Cheng .Solvent extraction technology for the separation and purification of niobium and tantalum: A review[J].Hydrometallurgy,2011(1/2):1-12. |
| [13] | 北京华经视点信息咨询有限公司 .2007-2008年中国行业市场调查与投资前景分析报告[R].北京:北京华经视点信息咨询有限公司,2007. |
| [14] | 郭青蔚;王肇信.现代钽铌冶金[M].北京:冶金工业出版社,2009:202. |
| [15] | 戴艳阳,钟晖,钟海云.钨渣中钽铌回收研究[J].有色金属,2009(03):87-89. |
| [16] | 马荣骏.湿法冶金原理[M].北京:冶金工业出版社,2007:450-452. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%