天然气的无机元素的土壤化探元素预测指标的探索

通过德阳新场气田化探成果与气田上有机元素异常，物探异常和钻孔实际见气的对比，以及对成都地区，宜宾地区化探成果的综合研究，认为As,Sb,Hb,Ba,Mn五元素及Cu,Pb,Zn,Mo,Cd,Ni,V,P等是预测天然气的指标，用该指标对新场气田和成都地区实际勘察结果对照，证实预测指标是正确的，从而探索出一条利用化探无机元素异常寻找天然气的新路。     

矿区采动断裂的稳定性评价

矿区优势断裂对地表岩移具明显的控制作用。采动断裂的稳定与否,不仅取决于开采区与断裂的距离和开采规模,更重要的在于采动断裂本身系列优势指标的大小,据此认识,用模糊数学方法对其稳定性进行了综合评价,得出了与实际相吻合的结论。     

中亚与中国西北地区陷落型前陆盆地的构造样式及成因分析

中亚与中国西北地区的多数中—新生代沉积盆地都表现为山前（指造山带或活动隆起带前缘）地带先行沉降,然后逐步向外扩展;早—中侏罗世沉降幅度最大,普遍形成未补偿的深湖—半深湖沉积,沉积范围遍及造山带,构成一准平原化的泛盆地沉积时期。盆地早期的构造样式均为半地堑式箕状凹陷,晚期均发生方式不同的的构造反转,形成全反转的逆冲推覆和半反转的正或逆反转构造。这些特征及区域构造背景共同说明,这一地区中—新生代盆地初始沉降不是起因于板块俯冲引发的挠曲作用,而是因造山带或活动隆起带前缘地带克拉通地块的重力陷落所引起,这样形成的盆地可称为陷落型前陆盆地。     

汤原断陷断裂构造特征及其对油气成藏的控制作用

汤原断陷是典型的受断裂控制的陆相盆地。盆地内断裂极为发育。断裂的发育主要有 Ｎ Ｅ向和 Ｎ Ｗ － Ｎ Ｗ Ｗ 方向,断裂的分布具有东西分带,南北分群的特征。按断裂的成因类型可划分出７ 种类型。断裂对油气生成、运聚及成藏的控制作用主要表现在：基底大断裂控制了烃源岩的展布,主干断裂控制了圈闭的形成和分布,断裂为油气运移提供了通道作用,断裂的封闭性为油气的聚集成藏提供了遮挡条件。     

Yanshanian Magma-Tectonic-Metallogenic Belt in East China of Circum-Pacific Domain (Ⅰ):Igneous Rocks and Orogenic Processes

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桩的荷载传递机理分析

荷载传递函数法是桩荷载传递机理分析的重要方法之一。针对桩－土共同作用过程中的桩周土体分别处于弹性与塑性状态的划分,以天然地基抗剪强度随深度线性增长的规律,由荷载传递函数的基本微分方程解得荷载传递的解析表达式,并以实例说明这种分析思路的实用性。     

延边八家子镇上南沟“大理岩”地质地球化学特征及地质意义

传统观点认为,延边八家子镇上南沟"大理岩"为碳酸盐岩地层经过区域变质作用形成。通过详细的野外和镜下观察,发现该"大理岩"并不发育层理等典型沉积岩的特征,而主要呈岩株和岩墙产出,与围岩新东村岩组片岩、片麻岩呈港湾状侵入式接触;且其中发育大量围岩捕虏体,"大理岩"局部还发育有冷凝边;除上南沟"大理岩"外,在上南沟及周边地区并没有碳酸盐岩地层的发育。分析显示,上南沟"大理岩"具有与火成碳酸岩相似的微量元素和稀土元素组成特征,C、O同位素组成处于火成碳酸岩受低温蚀变的演化趋势之内。因此,初步认为延边八家子上南沟"大理岩"并不是由碳酸盐岩地层经区域变质作用形成,其成因可能存在以下2种解释:一种是上南沟"大理岩"为火成碳酸岩,很可能是华北克拉通破坏事件在北缘的响应;另一种可能是大规模富含CO2流体运移的产物,是大规模流体运移成矿的典型范例。     

Hydro-mechanical experiments on suffusion under long-term large hydraulic heads

The long-term large hydraulic head in flood season is the main cause of suffusion failure or dam break, while the suffusion failure mechanism in this case has not been specially studied. First, a newly designed hydro-mechanical coupling suffusion apparatus was introduced. Second, two short-term suffusion experiments under different confining pressures were carried out to determine the suitable large hydraulic heads. Finally, four experiments on suffusion under long-term large hydraulic heads and different confining pressures were performed to investigate the influences of the long-term large hydraulic heads and the confining pressures on the evolution of suffusion. The results indicate that: (1) The signs of suffusion failure in the short-term experiments are the sudden decrease in hydraulic gradient and the sharp increase in eroded mass. While the flow rate in the long-term experiments appearing suffusion failures increases rapidly with the decrease in hydraulic gradient. (2) The suffusion failure in the long-term large hydraulic head experiment is more likely to happen and much more serious than that in the short-term experiment. The long-term large hydraulic head can reduce the suffusion failure hydraulic gradient significantly and increase the eroded mass dramatically. The results gained here provide a deeper understanding on the suffusion failure caused by the rapid increase in the high water level upstream the hydraulic earth structures in flood season.     

Generation of Muscovite/ Two-Mica Granil and Intracontinental Subduction

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