阿吾拉勒山琼布拉克铜矿床流体包裹体及碳氧同位素研究

琼布拉克铜矿床位于新疆伊宁县境内,前人对该矿床的成因一直存在争议.文章通过对琼布拉克铜矿床方解石中的流体包裹体进行系统的岩相学、显微测温学和碳氧稳定同位素分析研究,探讨了成矿流体的来源及演化.研究表明:琼布拉克铜矿床的流体包裹体主要为气-液两相包裹体,另有少量的气相包裹体,未见富CO2和含子矿物的流体包裹体,显示出张性...     

提高钻孔桩桩底压浆工效及保证质量的技术措施

钻孔桩桩底压浆技术是向钻孔灌注桩桩底沉渣和围岩土体内压入一定量水泥浆,使桩底沉渣和桩底一定范围土体孔隙内充满水泥浆液,经物理、化学作用使其强度大幅提高,从而实现单桩竖向承载力的提高。结合高铁钻孔桩桩底压浆施工实践,介绍了2种压浆工艺过程,阐明了提高压浆工效、保证注浆质量关键技术措施实施的重要性。     

对“白加白”改造旧水泥砼路面实施方案的探讨

G318怀宁段路面改善工程设计方案为旧水泥砼路面加铺水泥砼路面(简称"白加白"),在安庆市公路系统尚属首次实施,在我省亦无成功的实践经验可直接借鉴。为此,安庆市公路局专门成立了科研小组,并与浙江大学合作,以"白加白改造旧水泥砼路面方案的研究"为课题,将G318怀宁段作为实践项目,申报2010年度安徽省交通科技项目。笔者作为小组三位主要成员之一,全过程参与该项目的建设与管理。现就该方案的实践成果进行一次全面系统的总结,并就有关技术问题进行探讨。     

水泥浆护壁堵漏若干问题的探讨

水泥浆护壁堵漏是目前钻探施工中广泛应用的技术措施之一。在水泥浆护壁堵漏施工中,因各种原因致堵漏失败,根据水泥浆护壁堵漏失败的原因,从灌注工艺方面探讨提高水泥浆护壁堵漏的效果和预防孔内事故的发生应特别注意的若干问题。     

活性MgO定量分析标准方法的比较研究

用WB和JC标准水合法测定轻烧MgO粉的活性MgO含量,对测定结果进行方差和误差分析,并研究了水化时间对测定结果的影响。结果表明,两种方法存在显著性差异,WB和JC水合法的平均相对误差分别为1.31%和-19.85%,WB水合法精密度远高于JC水合法。以WB水合法为基准,JC水合法的平均相对误差大于-20%,远远超过行业标准中规定的±3%。因此,对于镁水泥原料MgO中活性含量的定量分析,不能采用JC方法,必须采用WB方法。此外,发现水化3 h已经接近活性氧化镁的水化平衡,为修订WB标准方法提供了参考依据。     

东天山黑峰山、双峰山及沙泉子(铜)铁矿床的矿物微量和稀土元素地球化学特征

东天山黑峰山铁矿床、双峰山铁矿床以及沙泉子铜铁矿床位于新疆哈密盆地以南,是东天山阿齐山-雅满苏构造带的重要矿床。文章利用磁铁矿、黄铁矿和方解石的微量元素及稀土元素组成示踪了这些矿床的成矿流体来源和性质,初步探讨了矿床的成因类型。激光剥蚀（LA）-ICP-MS磁铁矿微量元素分析表明,三个矿床的磁铁矿具有非常低的w（V）、w（Cr）和w（Ti）（平均分别为68×10^-6、13×10^-6和237×10^-6）,指示磁铁矿形成于热液过程而不是岩浆分异。黄铁矿中较高的Cu含量可能反映了含Cu矿物微颗粒的存在。黄铁矿中较低的Pb、Zn含量可能反映了成矿流体中较低的Pb²⁺和Zn²⁺浓度。黄铁矿中的Co/Ni比值表明这些矿床均为火山-热液成因。三个矿床黄铁矿的稀土元素总量都很低（ΣREE为0.58×10^-6~3.02×10^-6）,黑峰山铁矿中的黄铁矿轻、重稀土元素分馏不明显,双峰山铁矿和沙泉子铜铁矿中的黄铁矿均为轻稀土元素富集型,（La/Yb）_N分别为3.51~13.4和2.76~17.2。三个矿床略有差别的方解石稀土元素配分模式,反映了其流体组成和形成机制的差别。黑峰山铁矿中的重稀土元素富集型的方解石稀土元素配分模式为方解石Sm-Nd定年提供了依据。三个矿床的黄铁矿和方解石均无Ce异常,黑峰山铁矿中的黄铁矿和方解石表现为负Eu异常,而双峰山铁矿和沙泉子铜铁矿中的黄铁矿和方解石表现为正Eu异常,反映了三个矿床均形成于较高的温度,前者成矿流体可能为碱性,后两者成矿流体为酸性、还原性。结合前人研究成果认为,黑峰山铁矿、双峰山铁矿及沙泉子铜铁矿均为火山热液-充填（交代）矿床。     

Isotope systematics of secondary minerals from the Prospect Intrusion,New South Wales

The differentiated Mesozoic alkali dolerite Prospect Intrusion contains a wide range of secondary minerals, including carbonates (primarily calcite), laumontite, prehnite and heulandite, whose stability relationships imply a formation temperature of <200°C. The δ¹⁸O data for carbonates define a higher temperature (160 – 195°C) suite, and a lower temperature (51 – 73°C) suite. The δ¹³C, δ¹⁸O and ⁸⁷Sr/⁸⁶Sr isotope systematics for these carbonates suggest derivation of the higher temperature group from magmatic fluids, whereas the other group had a major meteoric component that probably originated from porewater in the country rock. Source fluids for prehnite were meteoric rather than magmatic in origin based on their δD and δ¹⁸O ratios. Early in the intrusion's emplacement, CO₂-rich hydrothermal fluids formed a carbonate rind sealing the upper part of the hydrothermal system and produced the higher temperature carbonates (calcite) and laumontite. Later, cooler fluids with a meteoric component infiltrated vesicles and fractures, depositing the lower temperature carbonates (calcite, aragonite), heulandite and prehnite.     

Granite weathering and silcrete formation on the Yilgarn Block,Western Australia

Weathering profiles developed on granitic rocks, exposed in the breakaways of the Barr‐Smith Range in the N of the Yilgarn Block of Western Australia, consist of kaolinitic saprolites merging upwards into silcrete, sandstone and grit. The sandstones and silcretes may also form columns or dykes, penetrating downwards into the saprolite. The silcretes are cemented by quartz and anatase, with zircon (QAZ‐cement), and‐the sandstones are cemented by aluminosilicates, either apparently amorphous (as siliceous allophane) or partly crystalline, as kaolinite and opaline silica. Transitional zones between silcretes and sandstones have all cement types. The profiles are characterized by low concentrations of alkalis and alkaline earths and most metals. The QAZ‐silcrete horizons may contain over 3% TiO₂ and 1000 p.p.m. Zr. The profiles evolved through at least four stages: (i) Formation of the deep saprolite‐sand weathering profile by kaolinization of feldspar and mica at depth, and the solution of kaolinite near the top of the profile, causing settling of resistant quartz grains, (ii) Precipitation of QAZ‐cement, the TiO₂ and SiO₂ being derived partly by lateral migration from upslope. (iii) Precipitation of aluminosilicates, in the sandstone and the saprolite. (iv) Erosion and exposure of the profiles by pedimentation. A similar profile occurs further S, at Gabbin, but no QAZ‐silcrete is present and the only exposures are in exploration pits. The kaolinitic saprolite‐quartz sand profiles probably formed under humid conditions, as the equivalents of ferruginous laterite developed on more basic rocks nearby and of lateritic bauxite in the Darling Range. However,’ the sand was a surface horizon and there is no evidence that there was ever a ferruginous zone at these sites. The sequential precipitation of QAZ‐ and aluminosilicate‐cements was probably, a response to increasing aridity and reduced groundwater flow. Aluminosilicate‐cemented materials tend to disaggregrate on exposure but they are probably more abundant than the more prominent QAZ‐silcretes.     

The origin of the Maozu carbonate-hosted Pb–Zn deposit,southwest China: Constrained by C–O–S–Pb isotopic compositions and Sm–Nd isotopic age

The Maozu Pb–Zn deposit, located on the western margin of the Yangtze Block, southwest China, is a typical carbonate-hosted deposit in the Sichuan–Yunnan–Guizhou Pb–Zn metallogenic province with Pb + Zn reserves of about 2.0 million tonnes grading 4.15 wt.% Pb and 7.25 wt.% Zn. Its ore bodies are hosted in Sinian (635–541 Ma) Dengying Formation dolostone and show stratiform, vein and irregular textures. Ores are composed of sphalerite, galena, pyrite, calcite, dolomite, quartz and fluorite with massive, banded, disseminated and veined structures. The C–O–Sm–Nd isotopic compositions of hydrothermal calcites and S–Pb isotopic compositions of sulfides were analyzed to constrain the origin of the Maozu deposit. δ¹³C_PDB and δ¹⁸O_SMOW values of hydrothermal calcites range from −3.7‰ to −2.0‰ and +13.8‰ to +17.5‰, respectively, and plot near the marine carbonate rocks field in a plot of δ¹³C_PDB vs. δ¹⁸O_SMOW, with a negative correlation. It suggests that CO₂ in the hydrothermal fluids was mainly originated from marine carbonate rocks, with limited influence from sedimentary organic matter. δ³⁴S_CDT values of sulfides range from +9.9‰ to +19.2‰, similar to that of Cambrian to Triassic seawater sulfate (+15‰ to +35‰) and evaporate (+15‰ to +30‰) in the Cambrian to Triassic sedimentary strata. It suggests that reduced sulfur was derived from evaporate in sedimentary strata by thermo chemical sulfate reduction. Sulfides have low radiogenic Pb isotope compositions (²⁰⁶Pb/²⁰⁴Pb = 18.129–18.375, ²⁰⁷Pb/²⁰⁴Pb = 15.640–15.686 and ²⁰⁸Pb/²⁰⁴Pb = 38.220–38.577) that plot in the field between upper crust and the orogenic belt evolution curve in the plot of ²⁰⁷Pb/²⁰⁴Pb vs. ²⁰⁶Pb/²⁰⁴Pb, and similar to that of age corrected Proterozoic basement rocks (Dongchuan and Kunyang Groups). This indicates that ore-forming metals were mainly derived from basement rocks. Hydrothermal calcite yields a Sm–Nd isotopic age of 196 ± 13 Ma, possibly reflecting the timing of Pb–Zn mineralization in the SYG province, younger than the Permian Emeishan mantle plume (∼260 Ma). All data combined suggests that hydrothermal fluids circulated through basement rocks where they picked up metals and migrated to surface, mixed with reduced sulfur-bearing fluids and precipitated metals. Ore genesis of the Maozu deposit is different from known magmatic–hydrothermal, Sedimentary Exhalative or Mississippi Valley-types, which maybe represent a unique ore deposit type, named as the SYG-type.     

复杂地层钻进中可控复合浆液的研制

复杂地层钻进中常用的注浆材料需要良好的时间可控性和固结体强度,因此研制一种可控时间、增加固结体强度、效果良好的注浆浆液是有意义的。针对以上问题,利用正交试验的方法研制了一种复合注浆材料。在不饱和聚酯中添加水泥及引发剂、促进剂使浆液在要求时间内固化,最终配方的固化时间为62 min,抗压强度为32.6 MPa。该浆液作为化学浆液具有可注性好、浆液粘度低、能注入到细微裂隙中的优点,固结体强度高,并且塑性性能良好,由于在浆液中添加了水泥,降低了成本,较之一些化学浆液有一定的优势。