共查询到18条相似文献,搜索用时 93 毫秒
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为了探究静压沉桩与CPTU贯入力学机制,开展了饱和黏土中静压沉桩及CPTU贯入的离心模型试验,获得了静压沉桩与CPTU贯入过程中土压力、超孔压和贯入阻力的变化规律。同时,将静压桩和CPTU压入过程视为一系列球孔的连续贯入,应用圆孔扩张解答,建立了静压沉桩和CPTU贯入过程中锥头阻力、侧阻力与超孔压的预测方法。通过离心模型试验和理论预测结果的对比分析表明:随着桩体的压入,桩周土体的超孔压和土压力均逐渐增大,当桩头通过监测点时,超孔压与土压力均达到最大值;在饱和黏土中,CPTU锥头阻力、锥侧摩阻力和锥头超孔压与锥头贯入深度总体上呈线性关系。预测方法估算沉桩和CPTU贯入引起的土压力、超孔压与模型试验结果相符,较好地反映了饱和黏土中静压沉桩和CPTU贯入的力学机制。 相似文献
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分析了夯管锤夯入钢管的过程 ,提出了依据地层压力和动力触探结果计算夯入钢管阻力的方法 ;还提出了应用波动力学计算夯入钢管位移、极限钢管夯入长度及钢管内最大压应力的方法。 相似文献
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针对孕镶金刚石钻头在坚硬岩石中的低钻速、高能耗问题,提出以体积破碎的碎岩方式来提高钻进效率的方法。为了进一步探究孕镶金刚石钻头的体积破碎形式,首先设计了单颗金刚石压入岩石全过程的室内实验。通过分析试验数据发现,金刚石压入岩石发生首次局部体积破碎即为金刚石钻头的体积破碎类型。然后,建立了金刚石压入岩石发生首次体积破碎时钻头的钻压和钻速计算模型,并通过对比理论值和实际值,进一步验证了单颗金刚石压入岩石试验结果以及计算模型的正确性。最后,通过分析计算结果,提出了在小粒径金刚石钻头中添加大颗粒金刚石来实现部分体积破碎的方法,并推导出钻头中应添加大颗粒金刚石的制品浓度,确定了大小粒径金刚石的添加量,并对大颗粒金刚石在钻头中的分布情况以及碎岩方式进行了探讨,可为实际中钻头参数设计提供参考依据。 相似文献
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基于目标函数的钻压优化模型建模方法 总被引:3,自引:0,他引:3
研究了如何把过去由地质人员离线确定优化钻压的模型变为自动送钻中在线实时的钻压优化模型。以综合钻井成本最低为准则,建立了钻井成本目标函数,讨论了影响钻井成本的因素,给出了钻压优化模型的约束条件,在以上基础上建立了钻压优化模型,并给出了钻压优化模型在线实时求解过程中有关参数的确定方法,最后总结了基于目标函数钻压优化模型建模方法优缺点和适用范围。本研究对科学自动化钻井具有参考价值。 相似文献
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维持孕镶金刚石钻头的正常钻速,需给钻头施加一个最小钻压。该钻压值随岩石压入硬度值的提高而增大;随钻头转速的提高而增加。通过对13种岩石的测试和同归计算,得出了最小钻压随压入硬度变化的表达式: P_(min)=44.3168+0.2633H_y 相似文献
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This paper presents the results of a study on the use of nanoindentation test to characterize the strain rate-dependent compressive response of asphalt concrete. Nanoindentation is now widely used for characterization and testing of composite as well as single-phase materials. Using a small piece of sample, nanoindentation tests can evaluate material behavior and structure in terms of the elasticity, time-dependent response, yield strength, damage, crack advance, debonding, and fatigues. In this study, a mixture of asphalt and calcium carbonate filler powder filling the intergranular void space of the asphalt concrete was characterized in terms of strain rate sensitivity at room temperature. The indentation hardness is observed to continuously decrease during constant indentation strain rates, but the hardness response clearly indicates positive strain rate dependency when compared at the same indentation depths. Following the constant strain rate tests, indentation creep response of the asphalt–filler mixture was tested at constant load conditions. The strain rate sensitivity values characterized from double logarithmic relationships between indentation hardness and strain rate during constant strain rate and constant load tests are comparable with that determined from uniaxial compression test of cylindrical asphalt concrete samples. The observed indentation size effect on hardness value was analyzed based on an existing size effect model. The size effect in the asphalt–filler mixture, which is stronger than that defined by the model, could be attributed to a plastically graded surface of asphalt–filler sample. 相似文献
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Brinell indentation tests were performed on Montney siltstone, and the results were compared with discrete element indentation simulations that use the micro-parameters calibrated using compression test data from the same siltstone samples. The simulated proppant indentation into the rock surface can be 15% less than the laboratory measurements. A lower effective particle–particle modulus and thus a lower Young’s modulus are needed in discrete element models for proper simulation of indentation. An equation to find the appropriate value of Young’s modulus for indentation simulation is proposed using Brinell indentation tests including 198 laboratory tests and 32 discrete element simulations. This equation can improve the prediction of Young’s modulus and thus the particle–particle effective modulus for indentation simulations to match the measured force–indentation depth curve in the laboratory. Using the improved micro-parameters, a parametric analysis of the influence of rock Young’s modulus and proppant particle size on proppant embedment was performed. An equation to estimate Brinell hardness as a function of Young’s modulus and closure stress was derived. A practical procedure was developed to predict proppant embedment from the estimated hardness. The predictions agree with the laboratory measurements in a case study on the Montney Formation.
相似文献13.
Environmental scanning electron microscopy (ESEM) and nanoindentation investigation of the crack tip process zone in marble 总被引:1,自引:0,他引:1
This study explores the interaction between crack initiation and nanomechanical properties in the crack-tip fracture process zone of Carrara marble. Specimens with preexisting cracks were loaded in a uniaxial testing machine until the process zone appeared at the tips of the preexisting cracks. ESEM analysis reveals an increase in microcrack density in the process zone with increased loading of the specimen. Nanoindentation testing comprised of lines and grids of single nanoindentations located both near and far from the process zone shows a decrease in both indentation modulus and indentation hardness near grain boundaries in intact material, and with closeness to the process zone. Ultimately, the study confirms that the crack-tip process zone manifests itself as an area of reduced indentation hardness and indentation modulus in marble. 相似文献
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Christopher P. Bobko Benjamin Gathier J. Alberto Ortega Franz‐Josef Ulm Lavinia Borges Younane N. Abousleiman 《国际地质力学数值与分析法杂志》2011,35(17):1854-1876
An inverse micromechanics approach allows interpretation of nanoindentation results to deliver cohesive‐frictional strength behavior of the porous clay binder phase in shale. A recently developed strength homogenization model, using the Linear Comparison Composite approach, considers porous clay as a granular material with a cohesive‐frictional solid phase. This strength homogenization model is employed in a Limit Analysis Solver to study indentation hardness responses and develop scaling relationships for indentation hardness with clay packing density. Using an inverse approach for nanoindentation on a variety of shale materials gives estimates of packing density distributions within each shale and demonstrates that there exists shale‐independent scaling relations of the cohesion and of the friction coefficient that vary with clay packing density. It is observed that the friction coefficient, which may be interpreted as a degree of pressure‐sensitivity in strength, tends to zero as clay packing density increases to one. In contrast, cohesion reaches its highest value as clay packing density increases to one. The physical origins of these phenomena are discussed, and related to fractal packing of these nanogranular materials. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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从孕镶钻头金刚石出刃与分布、岩石抗压强度和压入硬度及碎岩机理等方面对孕镶金刚石钻头给进压力的确定方法进行了分析探讨,提出综合碎岩机理,确定钻进行压力的计算方法和公式。 相似文献
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Establishing the links between the composition, microstructure and mechanics of shale continues to be a formidable challenge for the geomechanics community. In this study, a robust methodology is implemented to access the in situ chemomechanics of this sedimentary rock at micrometer length scales. Massive grids of coupled wave dispersive spectroscopy (WDS) and instrumented indentation experiments were performed over representative material surfaces to accommodate the highly heterogeneous composition and microstructure of shale. The extensive datasets of compositional and mechanical properties were analyzed using multi-variate clustering statistics to determine the attributes of active phases present in shale at microscales. Our chemomechanical analysis confirmed that the porous clay (PC) mechanical phase inferred by statistical indentation corresponds to the clay mineral phase defined strictly on chemical grounds. The characteristic stiffness and hardness behaviors of the PC are realized spatially in regions removed from silt inclusions of quartz and feldspar. At the microscale shared by indentation and WDS experiments, a consistent chemomechanical signature for shale emerges in which the heterogeneities of the PC are captured by the standard deviations of indentation properties and concentrations of chemical elements. However, these local behaviors are of second order compared to the global trend observed for mean mechanical properties and the clay packing density, which synthesizes the relative volumes of clay and nanoporosity in the material. The coupled statistical indentation and WDS technique represents a viable approach to characterize the chemomechanics of shale and other natural porous composites at a consistent scale below the macroscopic level. 相似文献
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评价页岩压裂形成缝网能力的新方法 总被引:3,自引:0,他引:3
页岩储层的“体积压裂”,使美国页岩气产业取得巨大成功,有效评价压裂裂缝网络形成的难易程度,是压裂开采的首要目标,目前国内外尚未发现有效的评价方法,为此开发了一种新的测试方法。针对10种岩芯,测试岩石力学参数,并对比分析常用的3种页岩脆性评价方法。采用压后裂隙结构面迹长分布的分维值和面密度对裂缝进行定量表征,并对压后崩落碎块进行对比分析。通过实验认为,杨氏模量和泊松比判别法与塑性系数判别法用于评价岩石脆性,精确度更高;脆性岩石通常表现为高杨氏模量或(和)低泊松比的特征,与单轴抗压强度、抗张强度和压入硬度没有对应关系;压裂裂缝的分布具有统计意义上的分形特征,分维可用于定量评价压后裂缝网络复杂度;硬度越高,压后裂缝密度越小;脆性越强,压后裂缝密度越大。新方法是岩石脆性、硬度和天然裂缝系统(和沉积层理)特征的综合体现,用于评价页岩压后形成缝网的能力,不仅直观可靠,而且简单有效,有利于现场推广应用,对于今后页岩气或致密砂岩气开发的理论研究和现场应用具有一定的指导意义。 相似文献