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1.
化探样品中钽的测定分光光度法 总被引:1,自引:0,他引:1
测定Ta的方法有很多,比如结晶紫法,该法的灵敏度低,检出限达不到化探样品的要求;乙基紫法,灵敏度虽高,但稳定性相当差,不适合成批化探样品的检测.本文采用钽钼酸与丁基罗丹明B在聚乙烯醇存在下形成水溶性缔合物光度法测定化探样品中的Ta[1],其表观摩尔吸光系数为1.39×106 L·mol·cm-1, 灵敏度高,稳定性好,并且在水相中测定,适合化探样品中痕量Ta的测定. 1 实验仪器及试剂 UV─250 (日本岛津); 10 μg穖L-1标准溶液:准确吸取100μg·mL-1 Ta2O5标准储备液(63 g/L酒石酸介质)10.0mL于100 mL容量瓶中,用4 mol· L-1 KOH溶液稀释定… 相似文献
2.
电感耦合等离子体质谱法(ICP-MS)测定化探样品中的Ag时,由于受到Zr、Nb氧化物离子91Zr16O和93Nb16O的严重干扰,直接测定时低含量Ag的分析结果误差较大,需要将干扰元素分离才能得到较准确的结果。当前应用P507萃淋树脂分离样品溶液中Zr和Nb等干扰元素已经成功应用于化探样品中Ag的测定。本文将此方法进一步改进,用氢氟酸、硝酸、高氯酸和逆王水敞开溶样,通过P507负载泡塑进行振荡吸附,实现了化探样品中Ag和内标元素Rh与干扰元素Zr的有效分离,应用ICP-MS可同时测定Ag、W和Mo。标准样品的测定结果准确可靠,方法检出限为Ag 0.0045μg/g,W 0.023μg/g,Mo 0.060μg/g,均低于多目标地球化学调查(1∶250000)样品分析的检出限。P507负载泡塑分离流程操作简便,无交叉污染,一次振荡可处理100件样品,其分析效率显著优于P507萃淋树脂交换柱,更加适合大批量化探样品Ag与W、Mo及微量元素的同时测定。 相似文献
3.
本文研究了双毛细管雾化器氢化物-火焰原子吸收法测定地质样品中痕量Se和Te的方法。测定Se、Te的灵敏度分别为0.012μg/ml和0.0088μg/ml(1%吸收);对含1.6ppm Se与0.42ppm Te的样品测定,其RSD(n=6)分别为3.3%和5.5%。方法简单、灵敏、实用。用GSS及GSD系列部分标样验证了方法的可靠性,可以测定一般地质样品中0.0001%以上的Se和0.0000x%以上的Te。 相似文献
4.
本文以火焰原子吸收光谱法对化探样品中铜的含量测定为对象,分析了测定不确定度的主要来源,包括样品称量过程、标准溶液配制、标准曲线拟合过程以及样品溶液定容过程,对各不确定度分量进行了分类与计算,评估了某化探样品的合成不确定度以及扩展不确定度.实验结果显示不确定度主要来自样品重复测量过程和标准溶液的配制过程.对于含量为35.05μg/g的土壤样品,其扩展不确定度为0.9744μg/g. 相似文献
5.
本方法建立了以多硫化合物、多碘化合物为缓冲剂(液体缓冲剂),上电极为光谱纯石墨电极、下电极为光谱纯石墨加罩电极的方式,采用控制试样法绘制工作曲线,电弧发射光谱法同时测定区域地球化学样品中As、Sb、Bi、Cd、Tl、In等6元素的测定方法。方法检出限为As1.0μg/g,Sb0.2μg/g,Bi0.1μg/g,Cd0.05μg/g,Tl0.1μg/g,In0.01μg/g;精密度(RSD,n=12)为As8.36%,Sb7.17%,Bi7.60%,Cd7.39%,Tl7.13%,In6.76%。方法用于测定国家一级标准物质GSD-1~GSD-12中As、Sb、Bi、Cd、Tl、In,测定值与标准值或参考值吻合。通过对1:50000区域地球化学调查样品中As、Sb、Bi、Cd、Tl、In实际分析,结果成图效果良好,具有简便快捷、成本低、检出限低、精度高等特点。 相似文献
6.
氢化物发生-原子荧光光谱法测定地球化学样品中痕量铋 总被引:4,自引:0,他引:4
样品经王水溶解后,加入KMnO4溶液氧化,草酸除去过量KMnO4后的体系,直接用氢化物发生原子荧光光谱法测定地质样品中痕量Bi。方法使Au、Pd、As、Sb、Se、Te等元素的允许量大为提高,减少了不同测定体系中共存元素对Bi测定的干扰。方法的检出限(6s)为0.042μg/g,精密度(RSD,n=12)为1.88%~5.57%。经国家一级地质标准物质验证,测定值与标准值吻合。 相似文献
7.
通过电感耦合等离子体质谱法测定化探样品中As的分析方法,利用1:1王水在沸水浴中溶矿,用ICP-MS直接测定。方法的检出限为0.0113μg/g,精密度RSD%小于3%,用国家标准物质验证的结果与标准值一致。方法简便快速,适合应用于大批量化探样品中As的测定。 相似文献
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9.
《矿产与地质》2020,(2)
化探样品中痕量汞的测试往往因为样品溶解过程中汞的挥发和样品间的相互污染,造成测试结果超差。研究化探样品中痕量汞测试方法的前处理方法,对溶解样品器皿的改进,采用带细孔盖的聚四氟乙烯塑料试管王水溶解样品,一方面抑制了样品溶解过程中汞的挥发,另一方面防止了样品溶解过程中因溶液飞溅造成的样品间的交叉污染。溶样2h,在硫脲-抗坏血酸介质中测试化探样品中痕量汞,取得较好的效果。探讨了硫脲-抗坏血酸介质中测试汞的过程中发生的物理化学反应机理,比较不同测试介质对结果的影响,确定了合适的分析检测条件。本方法用于化探样品中痕量汞的测定,通过精密度试验,得到相对标准偏差RSD(n=12)为1.2%~1.8%,加标回收率为92%~108%。共存元素干扰实验表明,砷400μg/g、锑60μg/g、铋50μg/g、镉5μg/g对汞的测试未见明显影响。 相似文献
10.
本文对示波极谱法测定化探样品中钨、钼的方法从熔矿方式、体系酸度、测试温度、各底液浓度、平衡反应时间和共存物质的干扰与消除等方面进行了探讨和优化,钨的方法检出限为0.17μg/g,测定限0.51~200μg/g,钼的方法检出限为0.15μg/g,测定限0.45~150μg/g。方法经国家一级标准物质检验,测定结果与标准值吻合,方法精密度(RSD,n=12)钨、钼分别为:0.83%,2.81%。本法使测定灵敏度大为提高,且效率高、低成本、重复性好、测定结果准确可靠,已应用于大量的化探样品分析当中。 相似文献
11.
作者按照涂光炽教授的分类将福建省层控铅锌矿床划分为4种类型。本文对它们的地质特征、微量元素和硫、铅同位素组成的特征作了较详细的阐述,对矿床的矿质来源作了初步的探讨。 相似文献
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13.
The stringer zones and commonly the interaction zone at the base of the massive sulphide mounds in the Iberian Pyrite Belt contain bismuth and cobalt minerals that are not found in the overlying massive sulphides. These are fairly rare cobalt sulphoarsenides (cobaltite, alloclasite, galucodot) that were formed at the beginning of the massive sulphide genesis, and fairly common bismuth sulphides (bismuthinite, hammarite, wittichenite, cosalite, kobellite, joseite, etc.), including species rare at world scale (nuffieldite, giessenite, jaskolskiite) that were deposited from last stage high-temperature (> 300 °C) copper-bearing fluids containing Bi (Te, Se). The last stage fluids precipitated chalcopyrite containing Cu, Bi, Te, (Se) sulphosalts at the base of the sulphide mound to form a high cupriferous zone. Their interaction with the massive sulphides is reflected by the formation of an exchange zone, a few metres thick, showing chalcopyrite disease textures, at the base of the mound; this zone forms the upper limit of potentially economic copper enrichment and of bismuth minerals. Gold is undoubtedly in part, if not totally, related to this last phase. The bismuth concentrations being equivalent in the massive sulphides and the stringers, the presence of bismuth minerals in the stringer zones results from high-temperature conditions combined with a rarity of galena, which impedes absorption of available Bi. The distribution of these bismuth minerals provides a basic mineralogical zoning in the stringer zone, with a deep, low-aS2 zone containing native bismuth and tellurides and a shallow, higher-aS2 zone in contact with the massive ore sensu stricto and containing complex bismuth sulphides. These results make it possible to distinguish between sulphide veinlets belonging to stockwork zones of massive orebodies and veinlets of an ambiguous nature, and provide mineralogical criteria for the proximity of copper-rich zones. They enrich the very complex mineralogy of the Iberian Pyrite Belt. 相似文献
14.
Hideo Higuchi John W Morgan R Ganapathy Edward Anders 《Geochimica et cosmochimica acta》1976,40(12):1563-1571
Four ureilites (Dyalpur, Goalpara, Haverö, and Novo Urei) were analyzed by radiochemical neutron activation analysis for Ag, Au, Bi, Br, Cd, Cs, Ge, In, Ir, Ni, Rb, Re, Sb, Se, Te, Tl, and U. An attempt has been made to resolve the data into contributions from the parent ultramafic rock and the injected, carbon- and gas-rich vein material. Interelement correlations, supported by analyses of separated vein material (WANKE et al, 1972), suggest that the vein material is enriched about 10-fold in refractory Ir and Re over moderately volatile Ni and Au, and is low in volatiles except Ge, C, and noble gases. It appears to be a refractory-rich nebular condensate that precipitated carbon by surface catalytic reactions at ˜500K and trapped noble gases but few other volatiles. The closest known analogue is a Cr- and C-rich fraction from the Allende meteorite, highly enriched in heavy noble gases and noble metals. By analogy with Allende, the gas-bearing phase in ureilites may have been an Fe, Cr-sulfide.
The ultramafic rock contains siderophiles and chalcophiles (Ni, Au, Ge, S, Se) at ˜0.05 of Cl chondrite level, and highly volatile elements (Rb, Cs, Bi, Tl, Br, Te, In, Cd) at ˜0.01 Cl level. It probably represents the residue from partial melting of a C3V-like chondrite body, under conditions where phase separation was incomplete so that some liquid was retained. The vein material was injected into this rock at some later time. 相似文献
15.
黝铜矿族矿物的EPMA研究 总被引:3,自引:0,他引:3
根据产自约20个不同矿床的黝铜矿族矿物的大量电子探针分析结果以及一些文献资料分析,黝铜矿族矿物是一类复杂的类质同象矿物系列。本文还对黝铜矿族矿物的分类命名规则以及相应的矿物种和变种名称提出意见和建议。 相似文献
16.
A. Cepedal M. Fuertes-Fuente A. Martín-Izard S. González-Nistal L. Rodríguez-Pevida 《Mineralogy and Petrology》2006,87(3-4):277-304
Summary Gold ores in skarns from the Río Narcea Gold Belt are associated with Bi–Te(–Se)-bearing minerals. These mineral assemblages
have been used to compare two different skarns from this belt, a Cu–Au skarn (calcic and magnesian) from the El Valle deposit,
and a Au-reduced calcic skarn from the Ortosa deposit. In the former, gold mineralization occurs associated with Cu–(Fe)-sulfides
(chalcopyrite, bornite, chalcocite-digenite), commonly in the presence of magnetite. Gold occurs mainly as native gold and
electrum. Au-tellurides (petzite, sylvanite, calaverite) are locally present; other tellurides are hessite, clausthalite and
coloradoite. The Bi-bearing minerals related to gold are Bi-sulfosalts (wittichenite, emplectite, aikinite, bismuthinite),
native bismuth, and Bi-tellurides and selenides (tetradymite, kawazulite, tsumoite). The speciation of Bi-tellurides with
Bi/Te(Se + S) ≤ 1, the presence of magnetite and the abundance of precious metal tellurides and clausthalite indicate fO2 conditions within the magnetite stability field that locally overlap the magnetite-hematite buffer. In Ortosa deposit, gold
essentially occurs as native gold and maldonite and is commonly related to pyrrhotite and to the replacement of l?llingite
by arsenopyrite, indicating lower fO2 conditions for gold mineralization than those for El Valle deposit. This fact is confirmed by the speciation of Bi-tellurides
and selenides (hedleyite, joséite-B, joséite-A, ikunolite-laitakarite) with Bi/Te(+ Se + S) ≥ 1. 相似文献
17.
激光剥蚀电感耦合等离子体质谱(LA-ICP-MS)是一种固体微区分析新技术。用该技术来分析矿床中硫化物的微量元素组成可以为研究成矿流体特征、矿床成因及找矿勘探提供有关的科学信息。文中以安徽铜陵矿集区内新桥Cu-Au-S矿床中的黄铁矿为研究对象,在详细的野外观察和室内鉴定的基础上,将矿床中的黄铁矿分为具有沉积特征的胶状黄铁矿(PyⅠ)、具有变形重结晶和热液叠加作用特征的细粒他形黄铁矿(PyⅡ)和具热液成因特征的中—粗粒自形黄铁矿(PyⅢ)3种类型。LA-ICP-MS原位微量元素测定结果显示,PyⅠ中相对富含Ti、Co、Ni、As、Se、Te;PyⅡ继承了PyⅠ中富含Ti、Co、Ni、As、Se、Te、Bi的特征,同时还含有不均匀分布的少量成矿元素(Cu、Pb、Zn、Au、Ag);PyⅢ中成矿元素Cu、Pb、Zn、Ag、Au以及Bi元素的含量较高,Co、Ni、As的含量较低。在元素赋存状态方面,Co、Ni、As、Se和Te均以类质同象的形式进入到了黄铁矿的晶格中;Bi在PyⅡ中主要以含Bi矿物的微细包裹体形式存在,而在PyⅢ中的Bi还部分取代了Fe而占据了晶格;Cu、Pb、Zn、Au、Ag这些成矿元素中,Cu和Zn分别以黄铜矿和闪锌矿的矿物包裹体存在于黄铁矿中;PyⅡ中所含的少量Au、Ag,可能分别以自然金和自然银的形式存在,而在PyⅢ中Au可能主要以银金矿的形式存在,Ag除了以银金矿的形式存在以外还可能赋存于黄铁矿中含铋的矿物包裹体内;Pb主要赋存于黄铁矿中的方铅矿或含铋矿物的包裹体中。在综合分析黄铁矿的结构形态和微量元素组成特征的基础上认为,PyⅠ型黄铁矿可能形成于前人提出的晚古生代海底沉积或喷流沉积环境,PyⅡ和PyⅢ型黄铁矿分别形成于中生代区域构造变形-热液叠加改造的过渡环境和热液环境,PyⅡ和PyⅢ的形成时间相近。新桥矿床的形成可能经历了晚古生代海底沉积或喷流沉积期和燕山期热液期,胶黄铁矿主要形成于沉积成矿期,而矿床中成矿物质Cu、Pb、Zn、Au、Ag等主要来自燕山期岩浆侵入作用形成的热液成矿系统。 相似文献
18.
Xiugen Fu Jian Wang Yuhong Zeng Fuwen Tan Xinglei Feng 《Environmental Earth Sciences》2013,70(3):1125-1134
The Shengli River–Changshe Mountain oil shale zone represents a potentially large marine oil shale resource in China. With the aim of better understanding the geochemistry of trace elements in marine oil shale and its combustion residues, 40 raw samples, 27 oil shale combustion residues and 29 selected minerals from Changliang Mountain oil shale are studied for geochemical analyses. The contents of Se, Cd, Mo, As, Cs, Pb, Sr and U in the oil shale samples are enriched from 1.47 to 33.91 times as compared with the Clarke values, whereas the concentrations of other elements are slightly higher/lower than the respective worldwide means. The most enriched elements in oil shale combustion residues are Se, Cd, Mo, As and U with enrichment values from 4.78 to 50.92. Trace elements with high volatile behaviour such as As, Co, Ni, Sc, Sn and V occur predominantly in organic matter and/or sulphides. Other non-volatile or slightly volatile trace elements (e.g., Be, Bi, Cs, Cu, Ga, Hf, Li, Nb, Rb, Ta, Th, W, Zr and REEs) may occur mainly in original and relatively refractory minerals in raw oil shale. The potentially hazardous trace elements in Changliang Mountain oil shale include As, Cd, Mo and Se. Arsenic and Se are controlled mainly by Fe-bearing minerals (probably pyrite) in Changliang Mountain oil shale. Cadmium is present mainly in dolomite, while Mo occurs mainly in organic matter. 相似文献
19.
Liu Fulai Shen Qihan Geng Yuansheng Institute of Geology Chinese Academy of Geological Sciences Beijing Xu Xuechun Ma Rui Open Laboratory Changchun College of Geology Changchun Jilin 《《地质学报》英文版》1997,71(4):407-422
The high-temperature and high-pressure experiment on natural block rock indicates that dehydration-melting of hydrous biotite (Bi) and partial melting of felsic minerals in garnet-biotite-plagioclase gneiss are mainly controlled by temperature, while mineral phase transformation is not only controlled by temperature-pressure conditions but also genetically associated with hydrous mineral dehydration-melting and partial melting of felsic minerals. According to the characteristics of biotite dehydration-melting and garnet transformation reaction, three stages may be distinguished: (1) when the experimental temperature is 700℃, biotite transforms to ilmenite (Ilm) + magnetite (Mt) + H2O and garnet to magnetite (Mt); (2) when the temperature is 730-760℃, biotite is dehydrated and melted and transformed into K2O-rich melt + Ilm + Mt, and garnet, into hypersthene (Hy) + cordierite (Crd); (3) when the temperature is up to or higher than 790℃, biotite is dehydrated and melted and transformed into melt + Hy + 相似文献
20.
几种镁铁矿物平衡共生的成分标志 总被引:3,自引:0,他引:3
本文以晋冀内蒙边界地区变质岩中主要镁铁质造岩矿物辉石,闪石为例,阐明镁铁矿物平衡共生的一条普遍规律,即平衡共生的正辉石,钙闪石之间有相同的镁铁比,其分配系数等于或接近于1.引用冀东,吉南,泰山和南极凯西站等地的实例,论证了此规律同时存在于黑云母与钙闪石,黑云母与正辉石之间,也存在于辉长岩和花岗岩等岩浆岩的橄榄石和正辉石,角闪石与黑云母等矿物对之间。这是判断镁铁矿物是否平衡的成分标志。 相似文献