巴西绿欧泊的宝石学特征

近期国内珠宝市场上出现一种产自巴西的绿欧泊,该类绿欧泊表现出的宝石矿物学特征与传统的欧泊有着明显差异。采用常规宝石学测试手段,并结合电子探针、X射线粉末衍射、扫描电子显微镜、红外吸收光谱、紫外吸收光谱等测试分析方法,就其化学成分、物相、微结构、谱学特征及颜色成因等问题展开初步研究。结果表明,巴西绿欧泊的主要矿物组成为蛋白石,含不等量的α-方石英和α-鳞石英等次要矿物,整体呈不规则胶柬状结构,局部微波纹理发育;该类欧泊主要由直径约10～30nm的SiO2球粒聚集而成;由H2O和M—OH倍频振动致近红外吸收谱带位于7000cm-1处,由H2O合频振动致近红外吸收谱带分别位于5200,5612cm叫处,由M—OH与[SiO4]合频振动致近红外吸收谱带位于4600-4100cm-1范围内。笔者还对巴西绿欧泊的呈色机理一并给予了探讨。     

河南桐柏围山城层控金银成矿带同位素地球化学

河南省桐柏山区的围山城金银成矿带包括破山特大型银矿、银洞坡大型金矿、银洞岭大型银多金属矿床及一些矿点,赋矿地层是新元古界歪头山组,矿体产状与地层产状一致,形态呈似层状、鞍状或透镜状,层控特征显著。氢-氧-碳同位素地球化学研究指示早、中阶段的成矿流体主要为变质水,晚阶段有大量大气降水加入成矿流体系统。碳-硫-铅同位素指示成矿物质来自于歪头山组地层;钾-氩同位素表明成矿作用(100~140Ma)发生在秦岭陆陆碰撞造山的高峰期之后碰撞挤压向伸展转变的背景下。综合考虑矿带的成矿流体来源、成矿物质来源以及矿床地质特征,认为围山城成矿带属典型的层控造山型金银成矿系统,形成于中生代扬子与华北板块的陆陆碰撞造山体制。     

北山地区早二叠世“哲斯动物群”特征

北山地区下二叠统以碎屑岩为主，夹碳酸盐岩及火山岩，属活动型滨海－浅海沉积。在弱水以东的巴丹吉林地区称为埋汗哈达组和阿其德组，由下而上共识别为４个腕足群落：（１）Ｓｐｉｒｉｆｅｒｅｌｌａ－Ｋｏｃｈｉｐｒｏｄｕｃｔｕｓ群落；（２）Ｅｌｉｖａ－Ａｌｅｘａｎｉａ群落；（３）Ｐａｒａｍａｒｇｉｎｉｆｅｒａ－Ｔｒａｎｓｅｎｎａｔｉａ群落；（４）Ｗａａｇｅｎｏｃｏｎｃｈａ－Ｌｉｎｏｐｒｏｄｕｃｔｕｓ群落。在弱水以西的马鬃山地区，划分为双堡塘组和金塔组，原定菊石滩组可能应归并于双堡塘组，仅上述的第１个Ｓ．－Ｋ．群落较发育。据生物对比，本区下二叠统的沉积时代，大致相当于华南的栖霞期至茅口期。上述群落具“哲斯动物群”特征，但与哲斯地区不同的是，本区缺失科而富含菊石。其总貌仍属北极海冷水型动物群。     

Study on the multi-sources of ore-forming materials and ore-forming fluids in the Huize lead-zinc ore deposit

TheHuizelarge sizedPb ZndepositinYunnan ProvinceislocatedinthecenteroftheSichuan Yun nan GuizhouPb Zn Agpolymetalmineralizationzone(SYGPb ZnMMD)inwesternYangtzePlateandis oneofthefamousPb Zn GebasesinChina(Wang Jiangzhenetal.,2003;WangXiaochunetal.,2000).Thisdeposit,whichischaracterizedbylarge scale(Pb+Znmetallicreservesarehigherthan5mil liontons),highPb+Zngrade(thePb+Zngradesof mostoresare25%-35%),highabundanceofuseful associatedelements(Ag,Ge,Cd,Ga,etc.)and someimportantbreakt…     

天然闪锌矿原位高温X射线衍射研究

对天然闪锌矿进行了原位高温X射线衍射实验研究,结果表明：闪锌矿受热膨胀,27～675℃温度范围内其膨胀系数为25.61×10-6℃-1;随着温度的升高,在543℃时产生中间物相Zn3O（SO4）2,并分解产生红锌矿ZnO;在797℃时中间物相完全消失,同时出现尖晶石结构的ZnFe2O4;加热至1160℃时的产物为ZnO和ZnFe2O4。实验表明,天然闪锌矿的热改性可产生一定比例的红锌矿（ZnO）,其与闪锌矿一起形成二元复合半导体。在光的激发下,该半导体体系产生的光生载流子由一种半导体注入另一种半导体,降低了光生电子-空穴对的复合几率,提高其光催化活性。本文的研究可为热改性提高天然闪锌矿光催化活性提供理论依据。     

表生异极矿成因研究及其找矿意义

云南金顶异极矿产于铅锌矿床氧化带中,基于对该矿床异极矿产出特征、颜色环带、不同颜色环带的成份、显微结构以及其他铅锌氧化物的分析,认为异极矿是由硅酸与锌的重碳酸盐溶液反应生成。镜下异极矿集合体纤维交织结构、环带结构、毛粘状结构等显微结构特征分析表明异极矿是表生环境下形成。扫描电镜获得异极矿清晰的单晶体、集合体和晶体间充填物的图像,晶体大小约为100μm～300μm,晶体间片状充填物约为250μm。同时对云南金顶铅锌矿床和异极矿与其他地区铅锌矿床和异极矿产出特征进行比较认为：异极矿一般产出于铅锌矿床表生氧化带,在风化淋滤作用较强环境下产出,对矿床环境和原生铅锌矿床找矿有一定指示意义。     

水稻土中重金属元素Cd、Pb的竞争吸附——以长株潭地区水稻土为例

对中国南方的3个水稻土样品进行了Cd、Pb单一离子和混合离子吸附特点的研究。结果表明,3个水稻土样品中Cd、Pb的吸附特点都相似,Langmuir等温方程可很好地描述Cd、Pb的吸附等温线。3个土壤样品中,有较高pH值和较低有机物、CEC浓度、粘土含量、高岭石含量的2个土壤样品对Cd、Pb有较大的吸附量,且其等温吸附拟合的最大吸附量（B）也较大。在两组分混合溶液中,尽管共存离子的存在影响了土壤对单一离子的吸附,同时土壤对Cd的吸附在一定程度上受影响的程度大,但3个土壤样品都表现出对Pb有强的吸附能力。在3个土壤样品中,Langmuir等温方程中Pb的健合能常数（K）都大于Cd的健合能常数（K）,混合溶液中的K值高于单一溶液的K值,表明2种金属离子对吸附位点的竞争提高了特定吸附位点的保持力,使金属离子在土壤中特定位点的吸附更加坚固。     

The Material Sourece of a New Type of Copper Deposits—Evidence from Stable Isotopes

The new type of copper deposits concerned with in this paper are vein copper deposits found in the Lanping-Simao Rift Basin, Yunnan,China. As is indicated by H,O,C,S,Pb and Sr isotopes, water and mineralizers in the ore-forming fluids were derived from heated meteoric water and mantle, respectively.The metallic elements(Cu,Ag,Pb,Zn,As,Sb,Fe,REE,etc.)are characterized by a mixed source from the crust and the mantle.     

环氧树脂/沸石纳米复合材料的制备及表征

提出了一种用原位插入法制取环氧树脂/沸石纳米复合材料的新方法, 详细探讨了钠化、有机化、环氧树脂插入、固化及制备环氧树脂/沸石纳米复合材料的条件, 在实验的基础上确定了最佳条件, 制成了纳米复合材料, 并用XRD和TEM对其结构进行了表征, 发现纳米复合材料的平均粒径在5 0~ 6 0nm之间, 同时力学性能有明显提高, 可用于高性能的工程塑料和高品质的粘合剂.      

Cracking mechanisms during galena mineralization in a sandstone-hosted lead–zinc ore deposit: case study of the Jinding giant sulfide deposit, Yunnan, SW China

There are two types of lead–zinc ore bodies, i.e., sandstone-hosted ores (SHO) and limestone-hosted ores (LHO), in the Jinding giant sulfide deposit, Yunnan, SW China. Structural analysis suggests that thrust faults and dome structures are the major structural elements controlling lead–zinc mineralization. The two types of ore bodies are preserved in two thrust sheets in a three-layered structural profile in the framework of the Jinding dome structure. The SHO forms the cap of the dome and LHO bodies are concentrated beneath the SHO cap in the central part of the dome. Quartz, feldspar and calcite, and sphalerite, pyrite, and galena are the dominant mineral components in the sandstone-hosted lead–zinc ores. Quartz and feldspar occur as detrital clasts and are cemented by diagenetic calcite and epigenetic sulfides. The sulfide paragenetic sequence during SHO mineralization is from early pyrite to galena and late sphalerite. Galena occurs mostly in two types of cracks, i.e., crescent-style grain boundary cracks along quartz–pyrite, or rarely along pyrite–pyrite boundaries, and intragranular radial cracks in early pyrite grains surrounding quartz clasts. The radial cracks are more or less perpendicular to the quartz–pyrite grain boundaries and do not show any overall (whole rock) orientation pattern. Their distribution, morphological characteristics, and geometrical relationships with quartz and pyrite grains suggest the predominant role of grain-scale cracking. Thermal expansion cracking is one of the most important mechanisms for the generation of open spaces during galena mineralization. Cracking due to heating or cooling by infiltrating fluids resulted from upwelling fluid phases through fluid passes connecting the SHO and LHO bodies, provided significant spaces for crystallization of galena. The differences in coefficients of thermal expansion between pyrite and quartz led to a difference in volume changes between quartz grains and pyrite grains surrounding them and contributed to cracking of the pyrite grains when temperature changed. Combined thermal expansion and elastic mismatch due to heating and subsequent cooling resulted in the radial and crescent cracking in the pyrite grains and along the quartz–pyrite grain boundaries.