粤西大降坪黄铁矿床硫、铅同位素组成初步研究

大降坪黄铁矿床是产于云开隆起中段偏北震旦系海相碎屑岩-细碎屑岩中的层状硫化物矿床,矿床成因和海底喷气热水沉积作用有关,局部经受了后期热液的叠加改造。黄铁矿的δ~(34)S值在-25.55‰—+21.07‰之间,与矿石及黄铁矿中的有机碳含量呈反比。从条带状细粒黄铁矿到块状粗粒黄铁矿,亦即从南到北,硫同位素组成从富轻硫变为富重硫。条带状矿石的铅同位素组成与矿体围岩一致,为富放射成因上地壳源铅,块状矿石铅同位素组成较均一,三组铅同位素比值较条带状矿石略低,为原始沉积的矿石铅与热液带来基底混合岩铅的混合铅。     

复杂地层钻进绳索取芯适岩钻头的研究与试验

研究了南方煤矿区复杂地层钻进中钻头的磨损机理,研制出了适合于复杂地层钻进的绳索取芯钻头。探讨了电镀钻头内、外径的保径方法。试验钻头在复杂煤矿区不同类型的地层中均取得了显著的钻进效果。     

四川巴塘夏塞花岗岩和银多金属矿床年龄及ち颉⑶ν位素组成

为了解四川西部夏塞银多金属矿区黑云母二长花岗岩形成和矿化发生的时代及成矿物质来源,测定了该矿区绒依措和若洛隆花岗岩的Rb_Sr年龄和钾长石、黑云母及主要银矿化阶段石英的40Ar/39Ar年龄及矿石的硫、铅同位素组成。花岗岩的结晶年龄约为93Ma,银矿化年龄约为75Ma。矿石硫可能源于花岗岩,但不能排除源于弱沉积围岩的可能性;矿石、花岗岩和弱变质沉积围岩的铅同位素组成相似,铅主要源于上地壳,少量源于下地壳。     

隐伏矿床(体)定位预测的综合找勘方法

简述了综合找勘方法的组成和特点,重点从地质背景条件的分析、控矿构造与矿体特征的研究、地球物理测量、深部工程验证和找勘模式的建立等方面介绍了综合找勘方法的应用与研究内容;并列举了应用综合找勘方法在黔西北地区寻找隐伏铅-锌矿效果较明显的猫猫厂铅-锌矿和垭都铅-锌矿实例。     

铅在高岭石表面的解吸动力学

经过酸性条件下（pH=3.1)Pb(Ⅱ）高岭石表面解吸动力学的研究，发现解吸反应与吸附反应动力学相似，也是一个二阶段的过程，即初始的快速解吸之后伴随着一个缓慢的释放过程。在快速解吸阶段，7min内解吸量即已达到41％。吸附铅没有完全解吸，有近38％残留在高岭石表面，即解吸和吸附过程不是完全可逆的。解吸过程可以用扩展Elovich方程、Elovich方程、双常数方程和一级扩散方程较好地似合。     

喷锚与桩锚支护在中南花园酒店深基坑工程中的应用

针对中南花园酒店深基坑极为复杂的地质条件和周边环境,采用喷锚与桩锚联合支护的方案,保证了基坑施工和周边建筑物及地下管线的安全,降低了工程成本,缩短了工期,可为类似工程的设计与施工提供借鉴。     

MS-215型大直径绳索取心器及其在煤层气井中的应用

根据煤层气井快速、安全的取心要求,结合现场条件,研制了MS-215大直径绳索取心器。文中介绍了取心器的设计思路、结构特点及现场应用效果。结果表明,该取心器设计合理,机构动作可靠,岩煤心直径大、采取率高、提出速度快,尤其适合煤层气井煤心的采取。     

区域化探找矿新案例-甘肃代家庄铅锌矿的发现

代家庄铅锌矿是在甘肃省用地球化学勘查方法发现的第一个大型铅锌矿床。作者回顾了发现该矿床的简史,研究了矿床地质、地球化学特征,探讨矿区进一步找矿的远景,讨论应用地球化学勘查方法寻找铅锌等有色金属矿产的经验和教训。     

L'archivage des activités humaines par les neiges et glaces polaires : le cas du plomb

The investigation of the occurrence of lead in dated snow and ice from Greenland and Antarctica has played a major role in our understanding of the history of the pollution of the atmosphere of our planet by this metal. Such studies have however proved to be very demanding, mainly because of the extreme purity of polar snow and ice. Reliable measurements can be obtained only if ultra-clean and highly sensitive procedures are used, as pioneered by Clair Patterson. The Greenland data show evidence of large-scale pollution of the atmosphere of the Northern Hemisphere for lead as early as two millennia ago during Greco–Roman times, especially because of mining and smelting activities in southern Spain. It peaked at the end of the 1960s, with lead concentrations in snow about 200 times higher than natural values, before declining during recent times because of the fall in the use of leaded gasoline. Lead pollution in Antarctica was already significant at the end of the 19th century as a consequence of whaling activities, the traffic of coal-powered ships crossing the Cape Horn, and mining activities in South America, South Africa and Australia. After declining because of the opening of the Panama Canal, the great economic depression and World War II, it reached a maximum during the 1980s, with lead concentrations 20 times higher than natural values. Other studies focus on past natural variations of lead in ancient ice dated from the last climatic cycles. To cite this article: C. Boutron et al., C. R. Geoscience 336 (2004).     

含澄江动物群地层的Pb-Pb同位素定年

对含澄江动物群的地层样品进行了Pb同位素定年研究.经测定未受风化作用影响的20个黑色页岩样品给出了534±60 Ma左右的Pb-Pb等时线年龄,应代表了澄江动物群的下限年龄.该年龄较以往采用Rb-Sr和40Ar-39Ar等定年方法所获得的年龄更为年轻.