Determination of silver in platinum-palladium concentrate by potassium thiocyanate titration with lead fire assay
HUANG Yajuan, LIU Fangmei*, GAN Cong, HUANG Chunyan
Zijin Copper Co.,Ltd.,FuJian Key Laboratory for Green Production of Copper and Comprehensive Utilization of Associated Resources,Shanghang 364204, China
Abstract:The accurate determination of silver in platinum-palladium concentrate has important guiding significance for its efficient and comprehensive utilization. However, the content of silver in platinum-palladium concentrate is high, and the matrix is complex, leading to high difficulty in determination. Silver in sample was preconcentrated with lead fire assay, and the loss of silver in cupellation was avoided by remaining lead cupellation. Then the lead beads were dissolved with nitric acid. Palladium was separated by dimethylglyoxime precipitation method, thus eliminating the interference of palladium with the titration end point color. Finally, silver was titrated with potassium thiocyanate titration. Consequently, a method for determination of silver in platinum-palladium concentrate was established by potassium thiocyanate titration combined with lead fire assay. The experimental results showed that the loss of silver could be reduced when the remaining lead in cupellation was 2-3 g after preconcentrating silver via lead fire assay. After lead beads was digested with 4 mol/L nitric acid and palladium was separated with 36 mL of dimethylglyoxime ethanol solution, the interference of palladium with the determination could be effectively eliminated. The content of silver in actual samples and simulated samples of platinum-palladium concentrate were determined according to the proposed method. For the actual sample, the relative standard deviations (RSD, n=7) of the results were between 0.50% and 0.72%, and the recoveries were between 96% and 101%. For the simulated samples, the results were consist with the theoretical values.
黄雅娟, 刘芳美, 甘聪, 黄春燕. 铅试金-硫氰酸钾滴定法测定铂钯精矿中银[J]. 冶金分析, 2022, 42(12): 60-65.
HUANG Yajuan, LIU Fangmei, GAN Cong, HUANG Chunyan. Determination of silver in platinum-palladium concentrate by potassium thiocyanate titration with lead fire assay. , 2022, 42(12): 60-65.
[1] 刘芳美,赖秋祥,巫贞祥,等.密闭消解-电感耦合等离子体原子发射光谱法测定铂钯精矿中铜金铂钯硒碲铋铱铑[J].冶金分析,2021,41(6):77-82. LIU Fangmei,LAI Qiuxiang,WU Zhenxiang,et al.Determination of copper,gold,platinum,palladium,selenium,tellurium,bismuth,iridium and rhodium in platinum and palladium concentrates by sealed ablation-inductively coupled plasma atomic emission spectrometry[J].Metallurgical Analysis,2021,41(6):77-82. [2] 方迪,王皓莹.火焰原子吸收光谱法测定高镍锍中银的含量[J].中国资源综合利用,2020,38(10):15-18. FANG Di,WANG Haoying.Determination of silver content in high nickel matte by flame atomic absorption spectrometry[J].China Resources Comprehensive Utilization,2020,38(10):15-18. [3] 杨凤云,高会艳,徐霞,等.火焰原子吸收分光光度法测定铅精矿中高含量银[J].化学分析计量,2019,28(6):85-88. YANG Fengyun,GAO Huiyan,XU Xia,et al.Determination of high silver content in lead concentrates by flame atomic absorption spectrophotometry[J].Chemical Analysis and Meterage,2019,28(6):85-88. [4] 郭兵,张福元,张广安,等.火试金法测定多金属复杂铜阳极泥中金[J].中国无机分析化学,2020,10(3):43-47. GUO Bing,ZHANG Fuyuan,ZHANG Guang′an,et al.Determination of gold in polymetallic complex copper anode sludge by fire test gold method[J].Chinese Journal of Inorganic Analytical Chemistry,2020,10(3):43-47. [5] 周宏鼎,武守忠,胡忠强,等.火试金-佛尔哈德法测定铜阳极泥中银[J].理化检验(化学分册),2021,57(11):1045-1047. ZHOU Hongding,WU Shouzhong,HU Zhongqiang,et al.Determination of silver in copper anode sludge by fire assay-Foerhard method[J].Physical Testing and Chemical Analysis(Part B:Chemical Analysis),2021,57(11):1045-1047. [6] 储悦.铅试金富集条件对KSCN滴定铜阳极泥中银的影响[J].中国无机分析化学,2022,12(3):123-128. CHU Yue.Effect of lead test gold enrichment conditions on the titration of silver in copper anode sludge by KSCN[J].Chinese Journal of Inorganic Analytical Chemistry,2022,12(3):123-128. [7] 蒋建航,张承龙,蹇祝明,等.电感耦合等离子体原子发射光谱(ICP-AES)法测定银钯合金中银和钯[J].中国无机分析化学,2022,12(6):77-81. JIANG Jianhang,ZHANG Chenglong,JIAN Zhuming,et al.Determination of silver and palladium in silver-palladium alloy by inductively coupled plasma atomic emission spectrometry (ICP-AES)[J].Chinese Journal of Inorganic Analytical Chemistry,2022,12(6):77-81. [8] 张晨芳,刘献锋,胡建,等.电感耦合等离子体质谱法测定地质样品中银的研究进展[J].中国无机分析化学,2022,12(3):68-74. ZHANG Chenfang,LIU Xianfeng,HU Jian,et al.Progress in determination of silver in geological samples by inductively coupled plasma mass spectrometry[J].Chinese Journal of Inorganic Analytical Chemistry,2022,12(3):68-74. [9] 肖刘萍.沉淀分离-铅试金富集-氯化钠电位滴定法测定贵铋中银[J].冶金分析,2019,39(3):74-78. XIAO Liuping.Determination of silver in precious bismuth by potentiometric titration with precipitation separation-lead test gold enrichment-sodium chloride[J].Metallurgical Analysis,2019,39(3):74-78. [10] 罗联诗,刘芳美,赖秋祥,等.火试金法测定铜冶炼物料中银补正系数研究[J].中国有色冶金,2021,50(1):62-69. LUO Lianshi,LIU Fangmei,LAI Qiuxiang,et al.Study on the determination of silver complementary coefficient in copper smelting materials by fire test gold method[J].China Nonferrous Metallurgy,2021,50(1):62-69. [11] 芦新根,赵可迪,王佳俊.火试金法测定银量的银补正方法[J].黄金,2020,41(10):81-84. LU Xingen,ZHAO Kedi,WANG Jiajun.Silver complementation method for silver determination by fire assay[J].Gold,2020,41(10):81-84. [12] 孔德颂,王鹏程,叶钟林,等.银电解液中钯的定向分离试验研究[J].矿冶工程,2019,39(2):85-88. KONG Desong,WANG Pengcheng,YE Zhonglin,et al.Experimental study on the directional separation of palladium in silver electrolyte[J].Mineral and Metallurgical Engineering,2019,39(2):85-88. [13] 王艳红,宫嘉辰,陆小娟.丁二酮肟沉淀钯-EDTA滴定法测定富钯物料中的钯[J].有色矿冶,2011,27(5):53-54. WANG Yanhong,GONG Jiachen,LU Xiaojuan.Determination of palladium in palladium-rich materials by palladium precipitation with butanedione oxime and EDTA titration[J].Non-ferrous Mining and Metallurgy,2011,27(5):53-54. [14] 赖秋祥.火试金富集-电感耦合等离子体发射光谱法测定分金渣中的铂和钯[J].现代矿业(Modern Mining),2020,36(5):154-157,166. [15] 蔡树型,黄超.贵金属分析[M].北京:冶金工业出版社,1984:38-40.
