|本期目录/Table of Contents|

[1]伦绍雄,陆薇宇.细粒嵌布贫铜镍矿的特征及其对选矿的影响[J].武汉工程大学学报,2013,(11):32-36.[doi:103969/jissn16742869201311008]
 LUN Shao\|xiong,LU Wei\|yu.Mineralogical feature of lean copper\|nickel ore with finely disseminated and its effects on mineral processing[J].Journal of Wuhan Institute of Technology,2013,(11):32-36.[doi:103969/jissn16742869201311008]
点击复制

细粒嵌布贫铜镍矿的特征及其对选矿的影响(/HTML)
分享到:

《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2013年11
页码:
32-36
栏目:
化学与化学工程
出版日期:
2013-11-30

文章信息/Info

Title:
Mineralogical feature of lean copper\|nickel ore with finely disseminated and its effects on mineral processing
文章编号:
16742869(2013)11003205
作者:
伦绍雄1陆薇宇2
1. 广西桂华成有限责任公司,广西 钟山542611;2.广西冶金研究院,广西 南宁530023
Author(s):
LUN Shao\|xiong1 LU Wei\|yu2
1.Guangxi Gui Hua Cheng Co.,Ltd.,Zhongshan 542611,China;2.Guangxi Metallurgical Research Institute,Nanning 530023,China
关键词:
工艺矿物学 镍黄铁矿 黄铜矿 矿物嵌布特性
Keywords:
process mineralogy pentlandite chalcopyrite characteristics of mineral dissemination
分类号:
TD91
DOI:
103969/jissn16742869201311008
文献标志码:
A
摘要:
为了探明广西融水某铜镍矿矿石的工艺矿物学性质,采用光谱半定量分析、化学多元素分析、物相分析等方法,对矿石的物质组成、铜镍在矿石中的赋存形式及黄铜矿、镍黄铁矿的嵌布特性等进行了系统研究.结果表明:该铜镍矿石铜的品位为0.83%,硫化铜中的铜占96.02%,主要赋存于黄铜矿中;镍的品位为0.52%,硫化镍中的镍占73.08%,主要赋存于镍黄铁矿中,但氧化镍和硅酸镍的存在会影响到镍的回收率,其中氧化镍采用常规的浮选药剂是较难回收的,而硅酸镍是不能回收的,所以实际上25.00%的镍是不能回收的.矿石的结构较复杂,矿石中的镍黄铁矿、黄铜矿的粒度以细粒为主,且镍黄铁矿、黄铜矿、磁黄铁矿、黄铁矿之间共生关系密切,多数以非自形晶结构为主,接触边界不规则,给硫化矿物之间的分离带来困难,从而影响铜镍精矿品位.
Abstract:
To explore the process mineralogical properties of a copper nickel ore in Rongshui of Guangxi, a systematic investigation about its mineral composition, copper and nickel occurrence mode and magnetite dissemination was made by spectral semi\|quantitative analysis, multi\|element chemical analysis, chemical phase analysis. The results show that copper grade of the copper nickel ore is 0.83%,and the content of copper in chalcopyrite which is occurred in copper sulfide minerals is 96.02%;nickel grade of the copper nickel ore is 0.52%, and the content of nickel in pentlandite which is occurred in nickel sulfide minerals is 73.08%. However, the existence of nickel oxide and nickel silicate affects the recovery rate of nickel, among which nickel oxide is hard to recover by using normal flotation agents, while nickel silicate is impossible to recover. As a result, 25% nickel is actually not capable of being recovered. The composition of the ore is complicated, in which pentlandite and chalcopyrite have small grain size in general. Also there exists a close symbiotic relationship between pentlandite, chalcopyrit, pyrrhotite and pyrite, most of which have non\|euhedral crystal texture with irregular boundary, bringing unfavorable effect on the separation of suffides.

参考文献/References:

[1]李江涛,库建刚,程琼.某硫化铜镍矿浮选试验研究[J].矿产保护与利用,2006(2):37\|39.LI Jiang\|tao,KU Jian\|gang,CHENG Qiong.Flotation Experiment Study on a Villamaninte Ore[J].Conservation and utilization of mineral resources, 2006(2):37\|39.(in Chinese)[2]邱兆莹,乔吉波.云南某铜镍矿选矿工艺研究[J].云南冶金,2010,3(6):17\|22.QIU Zhao\|ying,QIAO Ji\|bo.Research on Mineral Processing Process for a Cu\|Ni Ore in Yunnan Province[J].Yun Nan Metallurgy,2010,3(6):17\|22.(in Chinese)[3]袁致涛,程少逸,赵礼兵,等.朝鲜某铜镍矿石工艺矿物学研究[J].金属矿山,2009,6 :95\|98.YUAN Zhi\|tao,CHENG Shao\|yi,ZHAO Li\|bing,et al. Study on the Process Mineralogy of a Copper\|Nickel Ore from North Korea[J].Metal Mine, 2009(6):95\|98.(in Chinese)[4]师伟红,周涛,刘守信.内蒙某铜镍矿选矿试验研究[J].矿冶,2010,2(6):24\|27.SHI Wei\|hong,ZHOU Tao,LIU Shou\|xin.The experimental research on mineral processing of copper\|nickl ore in neimeng[J].Mining & Metallurgy, 2010,2(6):24\|27.(in Chinese)[5]卢静文,彭晓蕾.金属矿物显微镜鉴定手册[M].北京:地质出版社,2010. [6]陆薇宇.广西融水某铜镍矿工艺矿物学研究[R].南宁:广西冶金研究院,2012.

相似文献/References:

[1]石和彬,王树林,梁永忠,等.云南中低品位硅钙质磷块岩工艺矿物学研究[J].武汉工程大学学报,2008,(02):5.
 SHI He bin,WANG Shu lin,LIANG Yong zhong,et al.Process mineralogy of midlow grade silicatecalcareousphosphate rocks in Yunnan Province[J].Journal of Wuhan Institute of Technology,2008,(11):5.
[2]陆薇宇,陆智.越南某铝土矿工艺矿物学研究[J].武汉工程大学学报,2011,(01):43.[doi:10.3969/j.issn.16742869.2011.01.012]
 LU Wei Yu,LU Zhi.Investigation on process mineralogy of bauxite ore from Vietnam[J].Journal of Wuhan Institute of Technology,2011,(11):43.[doi:10.3969/j.issn.16742869.2011.01.012]
[3]石和彬,钟宏,刘羽,等.中低品位磷块岩在磨矿过程中的成分分异[J].武汉工程大学学报,2011,(03):87.[doi:10.3969/j.issn.16742869.2011.03.025]
 SHI He bin,ZHONG Hong,LIU Yu,et al.Component differentiation of midlow grade phosphate rocks in grinding[J].Journal of Wuhan Institute of Technology,2011,(11):87.[doi:10.3969/j.issn.16742869.2011.03.025]
[4]赵雷,杨绍斌,肖喆,等.沙特阿拉伯ALANJEL公司磷矿工艺矿物学研究[J].武汉工程大学学报,2011,(03):96.[doi:10.3969/j.issn.16742869.2011.03.027]
 ZHAO Lei,YANG Shao bin,XIAO Zhe,et al.Process mineralogy of phosphate rocks on Saudi Arabia ALANJEL company[J].Journal of Wuhan Institute of Technology,2011,(11):96.[doi:10.3969/j.issn.16742869.2011.03.027]
[5]庞建涛,杨绍彬,肖喆,等.云南弥勒天裕中低品位磷块岩工艺矿物学研究[J].武汉工程大学学报,2011,(03):100.[doi:10.3969/j.issn.16742869.2011.03.028]
 PANG Jian tao,YANG Shao bin,XIAO Zhe,et al.Process mineralogy of midlow grade phosphate rocks in Mile Tianyu,Yunnan[J].Journal of Wuhan Institute of Technology,2011,(11):100.[doi:10.3969/j.issn.16742869.2011.03.028]
[6]王树林,黄志良*,刘苗,等.宜昌磷矿重介质选矿工艺矿物学[J].武汉工程大学学报,2013,(11):27.[doi:103969/jissn16742869201311007]
 WANG Shu\|lin,HUANG Zhi\|liang,LIU Miao,et al.Process mineralogy study of heavy medium separation technology of Yichang phosphate mine[J].Journal of Wuhan Institute of Technology,2013,(11):27.[doi:103969/jissn16742869201311007]
[7]郑惠方,田毛毛,张 文,等.沉积变质型黄梅磷灰岩工艺矿物学研究[J].武汉工程大学学报,2021,43(05):551.[doi:10.19843/j.cnki.CN42-1779/TQ.202003002]
 ZHENG Huifang,TIAN Maomao,ZHANG Wen,et al.Process Mineralogy Reseach of Sedimentary Metamorphic Phosphorite from Huangmei[J].Journal of Wuhan Institute of Technology,2021,43(11):551.[doi:10.19843/j.cnki.CN42-1779/TQ.202003002]

备注/Memo

备注/Memo:
收稿日期:20130919作者简介:伦绍雄(1962\|),男,广西桂平人,工程师.研究方向:矿山生产实践.
更新日期/Last Update: 2013-12-03