A fully coupled THM model based on a non‐equilibrium thermodynamic approach and its application          下载免费PDF全文

Z. Zhang  X. Cheng 《国际地质力学数值与分析法杂志》2017,41(4):527-554

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Dynamics of Saxothuringian subduction channel/wedge constrained by phase‐equilibria modelling and micro‐fabric analysis          下载免费PDF全文

S. Collett  P. Štípská  V. Kusbach  K. Schulmann  G. Marciniak 《Journal of Metamorphic Geology》2017,35(3):253-280

Subduction and exhumation dynamics can be investigated through analysis of metamorphic and deformational evolution of associated high‐grade rocks. The Erzgebirge anticline, which forms at the boundary between the Saxothuringian and Teplá‐Barrandian domains of the Bohemian Massif, provides a useful study area for these processes owing to the occurrence of numerous meta‐basites preserving eclogite facies assemblages, and coesite and diamond bearing quartzofeldspathic lithologies indicating subduction to deep mantle depths. The prograde and retrograde evolution of meta‐basite from the Czech portion of the Erzgebirge anticline has been constrained through a combination of thermodynamic modelling and conventional thermobarometry. Garnet growth zoning indicates that the rocks underwent burial and heating to peak conditions of 2.6 GPa and at least 615 °C. Initial exhumation occurred with concurrent cooling and decompression resulting in the growth of amphibole and zoisite poikiloblasts overgrowing and including the eclogite facies assemblage. The development of clinopyroxene–plagioclase–amphibole symplectites after omphacite and Al‐rich rims on matrix amphibole indicate later heating at the base of the lower crust. Omphacite microstructures, in particular grain size analysis and lattice‐preferred orientations, indicate that the prograde evolution was characterized by a constrictional strain geometry transitioning into plane strain and oblate fabrics during exhumation. The initial constrictional strain pattern is interpreted as being controlled by competing slab pull and crustal buoyancy forces leading to necking of the subducting slab. The transition to plane strain and flattening geometries represents transfer of material from the subducting lithosphere into a subduction channel, break‐off of the dense slab and rebound of the buoyant crustal material.  相似文献   

A distributed thermodynamic model for energy and mass balance computation: FEST–EWB     

Chiara Corbari  Giovanni Ravazzani  Marco Mancini 《水文研究》2011,25(9):1443-1452

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The influence of coupled physical swelling and chemical reactions on deformable geomaterials     

Yue Ma  Xiao‐Hui Chen  Lee J. Hosking  Hai‐Sui Yu  Hywel R. Thomas  Simon Norris 《国际地质力学数值与分析法杂志》2021,45(1):64-82

Coupled thermo‐hydro‐mechanical‐chemical modelling has attracted attention in past decades due to many contemporary geotechnical engineering applications (e.g., waste disposal, carbon capture and storage). However, molecular‐scale interactions within geomaterials (e.g., swelling and dissolution/precipitation) have a significant influence on the mechanical behaviour, yet are rarely incorporated into existing Thermal‐Hydro‐Mechanical‐Chemical (THMC) frameworks. This paper presents a new coupled hydro‐mechanical‐chemical constitutive model to bridge molecular‐scale interactions with macro‐physical deformation by combining the swelling and dissolution/precipitation through an extension of the new mixture‐coupling theory. Entropy analysis of the geomaterial system provides dissipation energy, and Helmholtz free energy gives the relationship between solids and fluids. Numerical simulation is used to compare with the selected recognized models, which demonstrates that the swelling and dissolution/precipitation processes may have a significant influence on the mechanical deformation of the geomaterials.  相似文献   

Geochemical evolution of groundwater in hard-rock aquifers of South India using statistical and modelling techniques     

Annadasankar Roy  Hemant Mohokar  Diksha Pant  Uday Kumar Sinha  G. N. Mendhekar 《水文科学杂志》2020,65(6):951-968

ABSTRACT

Multivariate statistical analysis and inverse geochemical modelling techniques were employed to deduce the mechanism of groundwater evolution in the hard-rock terrain of Telangana, South India. Q-mode hierarchical cluster analysis (HCA) and principal component analysis (PCA) were used to extract the hydrogeochemical characteristics and classify the groundwater samples into three principal groups. Use of thermodynamic stability diagrams and inverse geochemical modelling in PHREEQC identified the chemical reactions controlling hydrogeochemistry of each of the groups obtained from statistical analysis. The model output showed that a few phases are governing the water chemistry in this area and the geochemical reactions responsible for evolution of groundwater chemistry along the flow path are (i) dissolution of evaporite minerals (dolomite, halite); (ii) dissolution of primary silicate minerals (albite, anorthite, K-feldspar, biotite); (iii) precipitation of secondary silicate minerals (kaolinite, quartz, gibbsite, Ca-montmorillonite) along with anhydrite and calcite; and (iv) reverse ion exchange processes.  相似文献   

小跨高比带楼板半通缝连梁抗震性能有限元分析          下载免费PDF全文

张超  陈向上  于德湖 《世界地震工程》2018,34(1):051-62

为了缓解联肢剪力墙中小跨高比连梁发生低延性的剪切破坏，增强连梁的变形和耗能能力，可在单连梁中轴线位置设置半通缝并配置交叉斜筋，形成半通缝连梁。本文完成了的对7种连梁的模拟，分析了在小跨高比、低周反复荷载作用条件下不同类型带楼板连梁的承载力、变形能力、刚度退化和耗能能力以及不同跨高比、不同开缝位置对带楼板半通缝连梁抗震性能的影响。结果表明:楼板会使半通缝连梁的剪压比增大，延性下降；但相比于普通连梁和双连梁，半通缝连梁具有较好的变形能力和承载力，可在实际中推广。  相似文献   

橡胶砂弹性动力学参数的弯曲-伸缩元试验研究     

姚玉文  刘方成  补国斌  景立平 《岩土力学》2020,41(7):2369-2379

橡胶砂作为一种廉价环保的土工材料，应用前景十分广阔，关于其力学特性的研究具有重要意义。采用弯曲–伸缩元法对橡胶砂进行了剪切波和压缩波联合测试，分别采用离散频率扫描法和初达波法确定了剪切波和压缩波的传播时间，进而得到其弹性动力学参数：初始剪切模量、侧限模量和泊松比，分析了橡胶含量和围压对橡胶砂弹性动力学参数的影响。结果表明：在同样围压下，随着橡胶含量的增加，橡胶砂初始剪切模量和侧限模量逐渐减小，初始泊松比逐渐增大；在同样橡胶含量下，随着围压的增大，橡胶砂初始剪切模量和侧限模量逐渐增大，初始泊松比逐渐减小。最后，在此基础上进行了两种因素耦合效应的分析以及相关力学机制的探讨。  相似文献   

分布埋入式光纤与隧道衬砌耦合性能试验及应用     

侯公羽  谢冰冰  韩育琛  胡涛  李子祥  杨兴昆  周天赐  肖海林 《岩土力学》2020,41(2):714-726

为探究埋入式光纤与隧道衬砌的耦合性能，分别从理论与试验两个方面进行研究，并在实际工程中进行了验证。构建了光纤、中间体和基体结构力学分析模型，进行光纤应变传递机制理论分析，计算了光纤应变传递效率；使用钢筋混凝土梁模拟隧道衬砌，进行了2组不同加载速率的试验。其中，在同一根梁内（同一工况）设计6种光纤的布设方式，以位移控制的方式在梁跨中部位进行单点多级加载，使用BOFDA（布里渊散射光频域分析）技术分别对6条光纤进行监测。试验结果表明：6条光纤均可以有效监测梁从开始加载至钢筋开始屈服阶段，光纤与梁耦合性最好；钢筋开始屈服直至梁破坏阶段，光纤应变不再增加甚至减小或呈现出光纤断裂的状态，此过程光纤与梁耦合性较差；除开槽埋入式光纤的有效监测应变差为3 000×10?6外，其余布设方式光纤有效监测应变差为2 000×10?6；光纤在长距离（>>146 mm）埋入式布设情况下可认为其应变传递效率接近100%，2组不同试验结果呈现相似规律。在北京市新机场线地铁暗挖隧道CRD工法区间进行了工程应用研究，监测结果表明分布埋入式光纤布设工艺是可行的，可为分布式光纤技术在地下工程结构监测中的应用提供有价值的参考。  相似文献   

A two‐dimensional coupled hydromechanical discontinuum model for simulating rock hydraulic fracturing          下载免费PDF全文

Yu‐Yong Jiao  Huan‐Qiang Zhang  Xiu‐Li Zhang  Hai‐Bo Li  Qing‐Hui Jiang 《国际地质力学数值与分析法杂志》2015,39(5):457-481

Within the framework of our discontinuous deformation analysis for rock failure algorithm, this paper presents a two‐dimensional coupled hydromechanical discontinuum model for simulating the rock hydraulic fracturing process. In the proposed approach, based on the generated joint network, the calculation of fluid mechanics is performed first to obtain the seepage pressure near the tips of existing cracks, and then the fluid pressure is treated as linearly distributed loads on corresponding block boundaries. The contribution of the hydraulic pressure to the initiation/propagation of the cracks is considered by adding the components of these blocks into the force matrix of the global equilibrium equation. Finally, failure criteria are applied at the crack tips to determine the occurrence of cracking events. Several verification examples are simulated, and the results show that this newly proposed numerical model can simulate the hydraulic fracturing process correctly and effectively. Although the numerical and experimental verifications focus on one unique preexisting crack, because of the capability of discontinuous deformation analysis in simulating block‐like structures, the proposed approach is capable of modeling rock hydraulic fracturing processes. Copyright © 2014 John Wiley & Sons, Ltd.  相似文献   

Boundary frame contribution in coupled and uncoupled steel plate shear walls          下载免费PDF全文

Meng Wang  Daniel J. Borello  Larry A. Fahnestock 《地震工程与结构动力学》2017,46(14):2355-2380

The steel plate shear wall (SPSW) system is a robust option for earthquake resistance due to the strength, stiffness, ductility and energy dissipation that it provides. Although thin infill plates are efficient for resisting lateral loads, boundary frames that are proportioned based on capacity design requirements add significant structural weight that appears to be one of the factors limiting the use of the system in practice. An alternate configuration, the SPSW with coupling (SPSW‐WC), was explored recently as an option for increasing architectural flexibility while also improving overall system economy and seismic performance. The SPSW‐WC, which extensively employs flexural boundary frame contribution, has shown promise in analytical, numerical and experimental studies, but recent research on uncoupled SPSWs suggests that boundary frame contribution should not be considered for carrying seismic design shear. As a result, in the present study, boundary frame contribution in SPSWs was explored with detailed three‐dimensional finite element models, which were validated against large‐scale SPSW‐WC tests. Six‐story systems were considered, and the study matrix included single and double uncoupled SPSWs along with coupled SPSWs that had various degrees of coupling. Variations in design methodology were also explored. The modeling framework was employed to conduct static monotonic and cyclic pushover analyses and dynamic response history analysis. These analyses demonstrate the beneficial effect of coupling in SPSWs and illustrate the need to consider boundary frame contribution in design of coupled SPSWs. In addition, sharing design shear between the infill plate and the boundary frame is more generally shown to not be detrimental if this sharing is done in the design stage based on elastic analysis and the resulting boundary frame provides adequate secondary strength and stiffness following infill plate yielding. Copyright © 2017 John Wiley & Sons, Ltd.  相似文献