甲基硅酸盐抑制粘土水化性能及机理

泥页岩水化分散是引起钻孔孔壁失稳,导致缩径、掉块、坍塌等孔内事故的主要原因,泥页岩抑制剂一直是复杂地层钻进技术研究的热点。通过对甲基硅酸钾、甲基硅酸钠、氯化钾、硅酸钠、硅酸钾5种抑制剂对粘土沉降稳定性、水化膨胀及造浆效果等性能测试,结果表明甲基硅酸盐具有良好抑制性;通过红外光谱、X射线衍射、水接触角和光学显微镜对甲基硅酸钾的抑制性作用机理进行了探讨。明确了钾离子的抑制性与表面疏水膜结构协同是甲基硅酸钾抑制粘土水化和防塌作用的原因。     

原生硅酸盐矿物风化产物的研究进展——以云母和长石为例

研究云母和长石等原生硅酸盐矿物的风化速率和风化产物对于深入理解土壤发生过程、营养元素循环以及全球气候变化具有重要的理论意义。本文从自然风化、人工化学风化和生物风化3方面总结了原生硅酸盐矿物风化作用及其产物的特点，重点阐述了微生物参与下的生物风化作用和生物矿化作用及其意义。野外观察和室内实验研究结果表明，微生物可以加速矿物的分解，而且其细胞表面及其产生的胞外多聚糖可以作为次生矿物成核的模板。     

岩浆熔融体性质及演化在成矿过程中的作用——以西藏玉龙斑岩铜(钼)矿床为例

玉龙斑岩铜(钼)矿床是亚洲最大的斑岩型铜矿床,包含多种矿化类型,成矿作用复杂。作为典型的斑岩型矿床,岩浆熔融体的性质在玉龙铜矿床的形成过程中起到了至关重要的作用。本文将分别从岩浆熔融体的物理和化学性质出发,解释玉龙矿床为何能成为玉龙成矿带中唯一一个超大型矿床的原因。在熔体演化方面,笔者主要通过对熔体密度、粘度的计算获得有关数据,以了解熔体运移、含矿流体分离的过程,以解释玉龙铜矿床为何能形成如此规模的矿床。     

基础底板注浆防渗技术研究及应用

部分采用片筏基础的建筑,当其地下室基础底板处于地下水水位以下时,由于勘察、设计、施工或其他诸如自然灾害等因素导致基础底板发生渗水现象[1].经过认真分析研究及工程应用,针对此种工程事故提出了一种创新施工方法,即采用两次注浆防渗技术进行整治,效果较好.并提供一个工程实例以供参考.     

复合改性水玻璃加固黄土微观特征研究

进行压汞试验和SEM-EDS试验研究复合改性前后水玻璃加固黄土,分析其孔隙分布特征、颗粒和孔隙形态以及胶结物形态和化学元素含量,探讨宏观力学特性与微观特征的联系。压汞测试结果表明,改性前后加固黄土具有相近的孔隙分布特征,入口孔径主要分布在0.06～8 ?m之间,大、中、小和微孔隙分界值分别为8、2、0.06 ?m,加固时生成的凝胶填充作用不显著。SEM-EDS测试结果表明,改性后黄土仍保持其粒状、架空、接触-胶结结构不变,但加入硅酸钾材料后黄土颗粒表面变得粗糙并吸附有絮状物,EDS数据显示K元素含量随着硅酸钾掺入量的增加而增大,且试样无侧限强度与K元素百分含量正相关。研究还表明,土的颗粒联结强度和结构形态特征是导致黄土宏观力学性质差异的本质原因,在复合改性水玻璃加固黄土时在保持黄土架空孔隙基本不变的前提下,生成的含K凝胶在改变颗粒表面形态的同时强化了骨架颗粒之间的连接强度,从而改善了土体的强度。     

Study on the Flocculability of Metal Ions by Bacillus Mucilaginosus GY03 Strain

Inrecentyears,withtherapiddevelopmentofindustrialeconomy ,wastewaterisdischargedinhugevolumeandtheaccumulationofheavymetalionsinsoilsandwatersourcesisspeededuprapidly .Asaresult,waterpollutionhasbecomeadailydeterioratingproblem .Heavymetalsareeasytoenterthefoodchain ,therebyconstitutingagreatthreattothehealthofanimalsandhu manbeings .Therefore,howtoeffectivelyhandleheavymetalpollutionhasbecomeacommonat tractionformankind .Theroutineheavymetaltreatmentmethodsaremainlythechemical,phys icalandphy…     

Melting of hydrous pyroxenites with alkali amphiboles in the continental mantle: 1. Melting relations and major element compositions of melts

Melting experiments on ultramafic rocks rich in the hydrous minerals phlogopite or phlogopite + K-richterite, some including 5% of accessory phases, have been conducted at 15 and 50 kbar. The assemblages represent probable source components that contribute to melts in cratonic regions, but whose melt compositions are poorly known. A main series of starting compositions based on MARID xenoliths consisted of a third each of clinopyroxene (CPX), phlogopite (PHL) and K-richterite (KR) with or without 5% ilmenite, rutile or apatite. Additional experiments were run without KR and with higher proportions of accessory phases. Melt traps were used at near-solidus temperatures to facilitate accurate analysis of well-quenched melts, for which reversal experiments demonstrate equilibrium.Results show that KR melts rapidly and completely within 50 °C of the solidus, so that melts reflect the composition of the amphibole and its melting reaction. Melts have high SiO₂ and especially K₂O but low CaO and Al₂O₃ relative to basaltic melts produced from peridotites at similar pressures. They have no counterparts amongst natural rocks, but most closely resemble leucite lamproites at 15 kbar. KR and PHL melt incongruently to form olivine (OL) and CPX at 15 kbar, promoting SiO₂ contents of the melt, whereas orthopyroxene OPX is increasingly stable at lower lithosphere pressures, leading to an increase in MgO and decrease in SiO₂ in melts, which resemble olivine lamproites. Melts of mica pyroxenites without KR are richer in CaO and Al₂O₃ and do not resemble lamproites. These experiments show that low CaO and Al₂O₃ in igneous rocks is not necessarily a sign of a depleted peridotite source. Accessory phases produce melts exceptionally rich in P₂O₅ or TiO₂ depending on the phases present and are unlike any melts seen at the Earth’s surface, but may be important agents of metasomatism seen in xenoliths. The addition of the 5% accessory phases ilmenite, rutile or apatite result in melting temperatures a few ten of degrees lower; at least two of these appear essential to explain the compositions of many alkaline igneous rocks on cratons.Melting temperatures for CPX + PHL + KR mixtures are close to cratonic geotherms at depths > 130 km: minor perturbations of the stable geotherm at >150 km will rapidly lead to 20% melting. Melts of hydrous pyroxenites with a variety of accessory phases will be common initial melts at depth, but will change if reaction with wall-rocks occurs, leading to volcanism that contains chemical components of peridotite even though the temperature in the source region remains well below the melting point of peridotite. At higher temperatures, extensive melting of peridotite will dilute the initial alkaline melts: this is recognizable as alkaline components in basalts and, in extreme cases, alkali picrites. Hydrous pyroxenites are, therefore, components of most mantle-derived igneous rocks: basaltic rocks should not be oversimplified as being purely melts of peridotite or of mixtures of peridotite and dry pyroxenite without hydrous phases.     

大麻坪地区二辉橄榄岩部分熔融实验研究

本文以采自大麻坪地区汉诺坝玄武岩中的二辉橄榄岩包体为初始实验物料,在压力1.0～3.0 GPa、温度1350～1550℃条件下进行了部分熔融实验,对实验产物进行了岩相学研究和电子探针成分分析。二辉橄榄岩在1350℃开始熔融,在实验的温度压力范围内,熔融程度为10%～30%。随熔融程度的升高,部分熔融后残余岩石倾向于向富镁、低铁、低钙、低硅的趋势演化,而部分熔融产生的熔体则倾向于富镁、富铁、低铝、低硅的趋势演化。在岩石化学图解上本次实验中二辉橄榄岩部分熔融产生的熔体化学组成与汉诺坝地区拉斑玄武岩的组成相近。随熔融程度升高,熔体具有从苦橄质→玄武质演化的趋势。     

双液注浆技术在杭州市天城广场工程中的应用

针对杭州市天城广场工程在基坑开挖过程中地下连续墙接缝处局部出现渗漏水的情况,为确保基坑开挖及周边建筑物的运作安全,采用水泥-水玻璃双液注浆技术对该部位出现的渗漏进行技术处理。分析了渗漏的原因,介绍了水泥-水玻璃双液注浆工艺及施工技术措施。