波长色散X射线荧光光谱法测定铜精矿中铜铅锌硫镁砷

采用偏硼酸锂和四硼酸锂混合熔剂熔融法制样,波长色散X射线荧光光谱法测定铜精矿中铜、铅、锌、硫、镁、砷,考察了熔剂、玻璃化试剂和预氧化条件对制样的影响。采用理论α系数和经验系数相结合的方法校正元素间的效应。测定铜精矿试样各组分的相对标准偏差(RSD,n=12)均小于3%,结果与化学分析法吻合。     

现场X射线测量勘查金矿

应用放射性同位素X射线荧光方法,可以在现场测量金矿中指示元素砷、铜或其他元素的荧光强度。金与其指示元素之间具有相当好的相关性。放射性同位素X射线荧光法利用这种相关性,在普查和勘探金矿体时,通过直接测量指示元素的荧光强度来发现矿化地区和隐伏矿体。使用这种方法在现场不必取样送化学分析,从而加速了地质调查的进程并降低了勘探成本。     

波长色散X射线荧光光谱法同时测定钨精矿中主次量组分

建立了采用波长色散X射线荧光光谱测定钨精矿中三氧化钨、锰、铁、氧化钙、二氧化硅、锡、钼、铜、铋、铅、锑、锌、镉、铬等14个主次量组分的方法。采用四硼酸钠和四硼酸锂混合熔剂熔融制样,以高纯物质人工配制校准标准样品,公共背景法进行背景校正,采用可变理论α影响系数法校正基体效应。方法的准确性、精密度达到了传统分析方法的要求,分析时间大大缩短,具有较好的实用价值。     

波长色散X射线荧光光谱法测定锌精矿中主次量成分

采用湿法化学预氧化法结合高温熔融制样,波长色散-X射线荧光光谱法测定锌精矿中铜、硅、镁、锌、铝、铁、硫、铅、钙、砷、钾、镉、锰等主次量元素。通过对锌精矿样品的湿法化学预氧化处理(0.3 g样品+1 g硝酸锂+0.5 mL过氧化氢在铂金合金坩埚中混匀),能够增加样品的使用量,提高了熔片中待测微量元素的X射线荧光光谱强度。采用四硼酸锂熔剂高温熔融制样,降低了元素间的基体效应。针对硫化精矿的灼烧增量现象,提出了灼烧增量的计算方法及校正方法。对于无法使用灼烧增量进行校正的软件,提出将实际样品灼烧增量转换为虚拟样品灼烧失量的方法。用理论α系数和经验系数相结合的方法校正元素间的效应。测定锌精矿各组分(除镉以外)的相对标准偏差(RSD,n=12)均小于3%,方法检出限为6.55～111.24μg/g,测定值与化学分析法结果吻合。     

能量色散X射线荧光光谱仪现场快速测定多金属矿中17种组分

直接使用粉末样品,用Minipal 4便携式能量色散X射线荧光光谱仪测定多金属矿样品中的三氧化二铝、氧化镁、二氧化硅、氧化钾、氧化钙、三氧化二铁、硫、铜、锰、锌、铋、锑、铅、镓、银、砷、锡等17种组分,方法简便、快速,用多金属矿石国家一级标准物质验证,分析结果与标准值基本符合;精密度试验表明,各组分的相对标准偏差(RSD,n=12)均小于12%,能够满足矿山和野外现场快速测定的要求。     

偏振能量色散X射线荧光光谱法测定硫化物矿石中的铜铅锌

X射线荧光光谱法用于分析矿石主成分的常规制样方法有粉末压片法与玻璃熔融法,但分析硫含量高的地质样品时,前者存在矿物效应和粒度效应问题、后者可能腐蚀贵金属坩埚。为满足矿产勘查的需要,急需一种适应于硫化物矿石主成分分析的制样方法。本文建立了一种硝酸+氢氟酸封闭消解试样,标准溶液校准,偏振能量色散X射线荧光光谱(PE-EDXRF)同时测定硫化物样品中铜、铅、锌三种元素的分析方法。用GBW 07162~GBW 07168等7种矿石国家一级标准物质进行精密度和准确度实验。结果表明,当样品中铜、铅、锌元素含量大于1%时,几乎所有样品中的铜、铅、锌元素的精密度(RSD,n=6)优于5%,检测结果与标准值一致性良好。本方法通过样品消解、直接液体进样等技术的应用,消除了粒度效应和矿物效应等基体效应对分析结果的影响,解决了因缺乏基体匹配的标准物质而造成的含量校准的问题,使PE-EDXRF技术可以在硫化物矿石分析中得到比较方便的应用。这种分析方法为实验室矿石分析提供了新手段,也为野外现场PE-EDXRF分析高矿化度样品提供了新途径。     

便携式X射线荧光仪在刚果(金)Kapolowe铜钴矿勘查中的应用

<正>在野外地质勘查过程中,X荧光分析仪具快速、便捷、经济、灵活、无损等特点,结合多种野外工作方法,可形成土壤X荧光测量、岩石X荧光测量等一系列的快速找矿方法(杨海等,2014)。本文将重点介绍土壤X荧光测量在刚果(金)Kapolowe铜钴矿1:2.5万土壤地球化学测量中的应用效果。     

重晶石矿石成分分析标准物质研制

研制了7个重晶石矿石成分分析标准物质。其中,GSO-1为铁矿型重晶石,GSO-2、GSO-3为萤石型重晶石,GSO-4、GSO-5为石英型重晶石,GSO-6为硫化物型重晶石,GSO-7为黏土型重晶石。样品采用陶瓷衬里的球磨机加工,加工后样品粒度达到-0.074 mm。采用X射线荧光光谱法检验了钡、铜、铅、锌、锆、铝、硅、铁和钙共9种元素的均匀性,并进行振动试验。8个实验室参加定值工作,提供了硫酸钡、氧化钡、三氧化硫和锶的7个标准值,全三氧化二铁的2个标准值,氟化钙的1个标准值及铜、铅、锌和水溶盐等标准值或参考值。2009年4月,7个样品已被国家质量监督检验检疫总局批准为国家一级标准物质,编号为GBW 07811~GBW 07817。     

电感耦合等离子体质谱法同时测定铜铅锌矿石中微量元素镓铟铊钨钼的干扰消除

对电感耦合等离子体质谱法同时测定铜矿石、铅矿石和锌矿石中镓、铟、铊、钨和钼量时,基体效应和主量元素铜、铅、锌对测量的干扰情况及可能的消除方法进行试验,结果表明,溶液中共存小于200μg/mL锌对上述微量元素的测量没有干扰;溶液中共存大于50μg/mL的铜对镓、铟、铊、钨、钼的测量有负干扰,共存大于100μg/mL铅对钨的测量有正干扰,对钼的测量有负干扰,采用钪、铼、镧混合内标或基体匹配可以消除这些干扰;溶液中共存大于20μg/mL的铅对铊的测量有正干扰,选择203Tl为测量质量数,可使耐受铅的干扰浓度提高到50μg/mL,铅对铊测量的干扰可以采用校正系数法或基体匹配进行校正或消除。     

X射线荧光技术现场原位测铜量上的应用

应用轻便型X射线荧光仪进行现场原位测量铜元素含量,可以了解铜元素的分布特征,划分矿与非矿界线,从而指导铜矿床勘查。并列举6个铜矿床应用实例,来说明该技术方法的应用效果。其优点是仪器轻便,原位测量快速,勘查成本降低。     

宁沪高速公路句容段两侧土壤磁化率异常与重金属元素的关系研究

高速公路两侧土壤的磁化率从路中央向两侧具有逐渐降低的特征,相对应的样品中的重金属Cu、Pb、Zn、N i、Cr、Fe等元素的含量也具有从路中心向两侧逐渐降低的现象。相关分析表明,土壤磁化率与土壤中的Cu、Pb、Zn、N i、Cr、Fe的相关性显著,因而可以利用磁化率异常来指示高速公路两侧土壤的重金属污染状况。元素的赋存形态分析表明铁锰氧化物态与残渣态是Cu、Pb、Zn、N i、Cr、Fe的主要赋存形式;各元素的形态分析结果与土壤磁化率的相关统计分析表明,高速公路两侧土壤的磁化率与可交换态中的Cu、Pb、Zn、铁锰氧化物态中的Fe、Pb、Zn、有机还原态中的Cu、Cr、Fe、Zn和残渣态中的Cu、Pb、Zn、Cr、Co、N i具有明显的相关性。     

A GIS-based approach for detecting pollution sources and bioavailability of metals in coastal and marine sediments of Chabahar Bay,SE Iran

Chabahar Bay in SE of Iran is a shallow semi-enclosed environment affected by anthropogenic activities. In this paper, 19 sediment samples were collected and concentration of selected metals (Cu, Pb, Zn, Cd, Ni, Cr, Co, V and Fe) was determined using ICP-MS analytical method. Sediment samples from five stations were also selected for sequential extraction analysis and concentration of metals in each fraction was determined using ICP-OES. In order to investigate the environmental quality of Chabahar Bay, geographic information system (GIS) along with geochemical data, environmental indices and statistical analyses were used. Calculated contamination degree (C_d) revealed that most contaminated stations (Ch3, S1 and S3) are located SE of Chabahar Bay and contamination decreases in a NW direction. The S9 station, west of the bay, is also contaminated. High organic matter (OM) content in the sediments is most likely the result of fuel and sewage discharge from fishing vessels along with discharge of fishing leftovers. Significant correlation coefficient among OM, Fe, Cu, Pb, Zn and Cd seemingly reflects the importance of the role that OM and Fe oxy-hydroxides play in the metals mobility. The results of hierarchical cluster analysis (HCA), computed correlation coefficient and sequential extraction analysis suggest that Cu, Pb, Zn and Cd probably come from antifouling and sea vessel paints, while Ni, Cr, Co, V and Fe are most likely contributed by ophiolitic formations located north of the bay and/or deep sea sediments. Average individual contamination factors (ICFs) indicated that the highest health hazard from the bay is posed by Cu, Pb and Zn.     

The species of Silene compacta Fischer as indicator of zinc,iron and copper mineralization

The possibility of using the species Silene compacta Fischer (Caryophyllaceae) as a plant indicator for Zn, Fe and Cu is discussed in this paper. Rock and plant samples were collected from an area near Essimi, north-eastern Greece, which is known for its Cu–Pb–Zn mineralization and analyzed for their content in 14 elements (Fe, Mn, Ag, As, Cd, Co, Cu, Mo, Ni, Pb, Sb, Sn, Zn and V). The data illustrate positive linear correlation between the concentrations of Zn, Fe and Cu in plant ash and rock samples. In particular, these correlations are 0.99 for Zn, 0.97 for Fe and 0.97 for Cu and are significant at the 99.9% confidence level. Therefore, S. compacta could be used as a plant indicator for Zn, Fe and Cu mineralization.     

王水溶样-电感耦合等离子体发射光谱法同时测定铁铜铅锌硫化物矿石中8个元素

建立了王水溶样-电感耦合等离子体发射光谱法同时测定铁、铜、铅、锌硫化物矿中Cu、Pb、Zn、As、Ag、Cd、Hg和Mo等8个元素的分析方法。确定了方法的溶矿及测定条件,用国家一级标准物质GBW07162(多金属贫矿石)和GBW07164(多金属矿石)进行精密度实验,除个别元素外,大多数的元素精密度(RSD,n=11)小于5%,准确度(RE)小于10%。通过一系列硫化物矿石标准物质进行方法验证,检测结果基本都在标准值的误差范围内,符合地质矿产开发的要求。方法简单,同时测定元素较多,线性范围宽,检出限低,尤其有利于硫化物矿石中的亲硫元素As、Ag、Hg的分析,实用性强。     

Geochemical features of heavy metals in core sediments of northwestern Taihu Lake, China

Sequential core sediments from northwestern Taihu Lake in China were analyzed for grain size, organic carbon and heavy metal content. The sediments are composed of organic-poor clayey-fine silts. The chemical speciations of Cu, Fe, Mn, Ni, Pb, and Zn were also analyzed using the BCR sequential extraction procedure. Cu, Fe, Ni, and Zn are mainly associated with the residue fraction; Mn is concentrated mainly in exchangeable/carbonate fraction and residue fraction; and Pb mainly in Fe/Mn oxide fraction and organic/sulfide fraction. The exchangeable/carbonate fractions of Cu, Fe, Ni, Zn and Pb are lower. The fractions of Ni, Pb and Zn bound to the Fe/Mn oxide have significant correlations with reducible Mn; the organic/sulfide fractions of Cu, Mn, Ni, Pb, and Zn have significant correlations with TOC. The extractable fractions of Cu, Mn, Ni, Pb, and Zn are high at the top 4 cm of the core sediments as compared to those in the deeper layers, showing the anthropogenic input of heavy metals is due to rapid industrial development. The heavy metal pollution history of the sediments has been recorded since the late 1970s, determined by the result of ^137Cs dating.     

Partitioning of manganese,iron, copper,zinc, lead,cobalt, and nickel in black coatings on stream boulders in the vicinity of the Magruder mine,Lincoln Co., Georgia

Sequential digestions of Fe-Mn oxide coated boulders collected upstream and downstream from the Magruder mine, Lincoln Co., Georgia, indicate probable partitioning relationships for Zn, Cu, Pb, Co, and Ni with respect to Mn and Fe. Initial digestion with 0.1M hydroxylamine hydrochloride (Hxl) in 0.01M HNO₃ selectively dissolyes Mn oxides, whereas subsequent digestion with 1:4 HCl dissolves remaining Fe oxides.The results indicate that partitioning is not constant, but varies systematically with respect to the location of metal-rich waters derived from sulfide mineralization. Upstream from the mineralized zone Zn and Ni are distinctly partitioned to the Fe oxide component and Co and Cu are partitioned to the Mn oxide component. Immediately downstream from the mineralized zone, Mn oxides become relatively more enriched in Zn, whereas Fe oxides are relatively more enriched in Cu, Co, and Ni. Analytical precision for Pb is poor, but available data suggests it is more closely associated with Fe oxides.For routine geochemical surveys utilizing coated surfaces, a one-step digestion method is probably adequate. Parameters useful for detecting sulfide mineralization are metal concentrations normalized to surface area or various ratios (e.g. Zn/(Mn + Fe), Cu/Mn, Pb/Fe). Ratios can be obtained much faster, and at lower analytical costs than conventional analysis of stream sediment.     

样品处理与保存方法对表层沉积物中金属形态分析的影响

利用改进的Tessier连续萃取法研究了冷藏、冷冻、冻干、烘干和风干等样品处理与保存方法对表层沉积物中金属形态的影响。结果表明：各样品处理与保存过程对沉积物中Fe、Mn、Cu、Zn及Pb的形态均具有不同程度的影响,其中Fe的形态受其影响最小（<3.3%）,Mn的形态受其影响最大（最高可达10.2%）;冻干对各金属形态的影响最小（<4.6%）;烘干和风干对重金属Cu、Zn和Pb的可交换态（Ⅰ+Ⅱ）和非残渣态（Ⅰ-Ⅴ）分布影响较大,而冷藏、冷冻和冻干的影响相对较小。因此,综合考虑重金属的形态分布及其生物可利用性,冻干是较理想的沉积物样品处理与保存方法。     

Heavy metals contamination in road dust in Delhi city,India

Road dust samples were collected from four different areas having different landuse patterns: industrial, heavy traffic, residential and mixed use in Delhi city of India. The samples were analyzed for Ba, Co, Cr, Cu Fe, Mn, Ni, Pb and Zn by ICP-AES. Results indicate high levels of Co, Cr, Cu, Mn and Ni in samples collected from industrial area. Ba, Pb and Zn showed higher concentration levels in heavy traffic area while Fe did not show any discernible variation between the localities. The concentrations of Fe, Mn, Ba, Zn, Cr, Cu, Pb, Ni and Co showed a decreasing trend. The content of heavy metals was comparable to those in other cities in the world. A multivariate statistical approach which includes Pearson’s correlations and principal component analysis was used to identify the possible sources of metals in the road dust. Enrichment factors were estimated for further confirming the sources of contamination. Significant positively correlations between road dust metals Cu–Mn–Co–Cr–Ni suggest that major common source of origin is industrial activities. A meaningful correlation between Ba and Zn, and a moderate positive correlation between Pb and Ba indicate the influence of traffic activities. Enrichment factors calculation indicated that Pb, Cu, Cr and Zn are moderately enriched whereas Co, Ni and Mn are less enriched while Ba exhibited very low enrichment in the dust samples. The results indicate that industrial and vehicular traffic are the two major sources. Traffic appears to be responsible for the high levels of Zn, Cu and Ba. High concentration of Co, Cr, Cu and Mn may be due to industrial sources.     

保山金厂河大型铜铁多金属隐伏矿床

隐伏矿床位于金厂河隆起核部上、下两层矽卡岩化带中,垂向上Pb、Zn—Cu、Cu、Fe—Fe多层楼结构,水平上Fe、Cu—Pb、Zn—Cu分带。属热液交代矽卡岩型铜铁多金属矿床。     

Colloid formation and metal transport through two mixing zones affected by acid mine drainage near Silverton,Colorado

Stream discharges and concentrations of dissolved and colloidal metals (Al, Ca, Cu, Fe, Mg, Mn, Pb, and Zn), SO₄, and dissolved silica were measured to identify chemical transformations and determine mass transports through two mixing zones in the Animas River that receive the inflows from Cement and Mineral Creeks. The creeks were the dominant sources of Al, Cu, Fe, and Pb, whereas the upstream Animas River supplied about half of the Zn. With the exception of Fe, which was present in dissolved and colloidal forms, the metals were dissolved in the acidic, high-SO₄ waters of Cement Creek (pH 3.8). Mixing of Cement Creek with the Animas River increased pH to near-neutral values and transformed Al and some additional Fe into colloids which also contained Cu and Pb. Aluminium and Fe colloids had already formed in the mildly acidic conditions in Mineral Creek (pH 6.6) upstream of the confluence with the Animas River. Colloidal Fe continued to form downstream of both mixing zones. The Fe- and Al-rich colloids were important for transport of Cu, Pb, and Zn, which appeared to have sorbed to them. Partitioning of Zn between dissolved and colloidal phases was dependent on pH and colloid concentration. Mass balances showed conservative transports for Ca, Mg, Mn, SO₄, and dissolved silica through the two mixing zones and small losses (<10%) of colloidal Al, Fe and Zn from the water column.