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Among the constitutive models for rock fractures developed over the years, Barton's empirical model has been widely used. Although Barton's failure criterion predicts peak shear strength of rock fractures with acceptable precision, it has some limitations in estimating the peak shear displacement, post‐peak shear strength, dilation, and surface degradation. The first author modified Barton's original model in order to address these limitations. Barton proposed his model for degradation of fracture asperities in unloading, reloading, and shear displacement reversal based on just one cyclic direct shear test. In this study, a database of results of 18 cyclic direct shear tests available in the literature was collected and analyzed. Modifications were made to Barton's original model (in terms of fracture cyclic shearing) to make it consistent with the modified model proposed by the first author. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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结合大量不同土性土体的回弹再压缩试验、模型试验,提出再加荷比、再压缩比率的概念,并在此基础上得出了土体再压缩变形的基本规律:当再加荷量为卸荷量的20%时,土样产生的再压缩变形量已接近回弹变形量的40%~50%;当再加荷量为卸荷量的80%时,再压缩变形量与回弹变形量大致相等,则此时回弹变形完全被压缩;当再加荷量与卸荷量相等时,再压缩变形量大于回弹变形量,且再压缩变形的增大程度与土性有关。可见在土样的再压缩过程中,在初始阶段再压缩变形增长速率较大,之后增长速率随着加荷量的增加反而逐渐降低。由此得出土体的再压缩变形发展规律为两阶段线性规律,这一规律具有工程实用意义:基底以下土体的回弹再压缩变形对于减小主群楼之间的差异沉降是一种有利因素;再压缩变形的发展规律为建筑物基底以下土体的回弹再压缩变形而产生的沉降计算提供了依据 相似文献
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The eigenfrequency of offshore wind turbine structures is a crucial design parameter, since it determines the dynamic behavior of the structure and with that the fatigue loads for the structural design. For offshore wind turbines founded on monopiles, the rotational stiffness of the monopile-soil system for un- and reloading states strongly affects the eigenfrequency. A numerical model for the calculation of the monopile’s behavior under un- and reloading is established and validated by back-calculation of model and field tests. With this model, a parametric study is conducted in which pile geometry, soil parameters and load conditions are varied. It is shown that of course the rotational stiffness varies with mean load and magnitude of the considered un- and reloading span, but that for most relevant load situations the initial rotational stiffness of the monopile system, i.e. the initial slope of the moment-rotation curve for monotonic loading, gives a good estimate of the actual stiffness. Comparisons of different p–y approaches show that the ordinary API approach considerably underestimates the initial stiffness, whereas the recently developed ‘Thieken’ approach and also the ‘Kallehave’ approach give a much better prediction and thus might be used in the design of monopiles in sand. 相似文献
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Manuel Bode Wolfgang Fellin David Mašín Gertraud Medicus Alexander Ostermann 《国际地质力学数值与分析法杂志》2020,44(7):1003-1018
The intergranular strain concept was originally developed to capture the small-strain behaviour of the soil with hypoplastic models. A change of the deformation direction leads to an increase of the material stiffness. To obtain elastic behaviour for smallstrains, only the elastic part of the material stiffness matrix is used. Two different approaches for an application of this concept to nonhypoplastic models are presented in this article. These approaches differ in the determination of the elastic stress response, which is used for reversible deformations. The first approach determines an elastic response from the original material model, and the second one uses an additional elastic model. Both approaches are applied on barodesy. The simulations are compared with experimental results and with simulations using hypoplastic models with the original intergranular strain concept. 相似文献
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Mengmeng Lu Shanyong Wang Scott W. Sloan Buddhima Indraratna Kanghe Xie 《国际地质力学数值与分析法杂志》2015,39(1):51-62
By incorporating the nonlinear variation of a soil's compressibility and permeability during the process of consolidation, an analytical solution for the radial consolidation of vertical drains has been developed for a general time‐variable loading. The general solution was verified for the cases of instantaneous loading and ramp loading. Detailed solutions were further derived for two special loading schemes: multistage loading and preloading–unloading–reloading. The nonlinear consolidation behavior of a vertical drain subjected to these two types of loading schemes was then investigated by a parametric study. The results show that the loading rate, the ratio of the compressibility index to the permeability index (Cc/Ck), and the initial stress state have a significant influence on the consolidation rate. A smaller value of Cc/Ck, a larger initial stress, or a fast loading rate always leads to a rapid consolidation rate. During the unloading period, a negative excess pore water pressure may occur, and a slower unloading rate may reduce this negative value. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
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载荷试验成果多用于判断土的变形特性和求得土的变形模量、极限荷载等数据。借助卸荷比、回弹比率、再加荷比、再压缩比率等参数对载荷试验成果中的卸荷及再压缩段的变形特征进行分析,发现其发展变化规律与由固结压缩试验得到的规律一致,载荷试验的特点又恰好弥补了固结压缩试验的一些不足,将其成果应用于回弹再压缩变形的计算中是一种有益的探索性研究。结合工程实例,在固结压缩试验数据处理方法的基础上进行合理改进,将载荷试验成果应用于基坑开挖回弹变形与再压缩沉降的计算,计算结果与原有方法的计算结果、工程实测数据对比分析,验证了该种方法的有效性。现有载荷试验数据也有着明显的不足之处,结合变形计算需要,对载荷试验的试验方法提出了改进性意见,为进一步的研究指出了方向。 相似文献
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