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岩土类软化材料的柱形孔扩张统一解问题 总被引:15,自引:7,他引:15
用应力一次跌落应变软化模型来模拟岩土软化材料特性,采用双剪统一强度理论的屈眼函数形式,推导了柱形孔扩张问题应力场及位移场的统一计算公式,分析了不同模型、不同软化程度对柱形孔扩张时应力、位移及塑性区开展规律的影响。 相似文献
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采用应力跌落的简化应力-应变模型考虑土的应变软化特性,同时采用简化的体积应变?v与大主应变?1及大主应变?1与小主应变?3之间的相互关系反映土的剪胀特性,根据空间准滑动面(SMP)理论和平面应变轴对称问题的柱形孔扩张基本方程,推导并给出一般黏性土中柱形孔扩张问题的应力场、应变场、位移场、塑性区半径和孔扩张压力。通过算例分析,探讨了土的剪胀因素、软化特性对孔扩张问题的影响程度。为了反映中主应力的影响,将本文解与基于Mohr-Coulomb破坏准则的解答进行了比较。计算结果表明,土的剪胀性和软化特性及中主应力对孔扩张问题的影响是显著的,基于Mohr-Coulomb破坏准则的孔扩张解答往往偏于保守。 相似文献
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本文基于广义SMP准则,综合考虑中间主应力、孔隙水压力和围岩的剪胀特性,建立了巷道围岩的理想弹塑性模型。根据弹塑性理论,推导了渗流作用下的围岩应力场、位移场和塑性区半径的统一解析解。结合具体算例对SMP准则计算得到的围岩应力分布和塑性区半径与Mohr-Coulomb(M-C)准则进行了对比,并对孔隙水压力和围岩剪胀角等影响因素进行了分析。研究结果表明:SMP准则计算得到的塑性区半径小于M-C准则,说明M-C准则相较于SMP准则更为保守;孔隙水压力对巷道围岩的位移场具有很大的影响,表现为孔隙水压力越大,巷道洞壁附近围岩位移量越大,且围岩塑性区半径和弹塑性交界面处的峰值切向应力与孔隙水压力成正比;采用相关联流动法则会低估围岩的强度,不考虑剪胀则会低估围岩的实际变形。 相似文献
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深埋圆形隧道弹塑性位移统一解及其比较分析 总被引:1,自引:0,他引:1
基于统一强度理论和非关联线性流动法则,考虑塑性区的真实弹性应变,推导了深埋圆形隧道弹塑性位移统一解。位移统一解合理地考虑了中间主应力效应和围岩剪胀特性的影响,具有广泛的理论意义。经与文献简化位移解析解比较分析知,围岩塑性区的弹性应变对隧道位移影响显著,简化解析解所得结果偏小,简化解析解和文中统一解之间的差异与中间主应力效应和围岩剪胀特性密切相关;考虑中间主应力的影响,能更加充分发挥围岩的强度潜能;隧道支护设计应考虑围岩剪胀特性的重要影响 相似文献
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岩土材料在非关联流动法则下剪胀角选取探讨 总被引:6,自引:1,他引:5
岩土材料属于摩擦型材料,其强度特性时参数指标的选取至关重要。当前对剪胀角存在模糊认识,导致在理论分析和数值模拟分析中常会产生较大误差。在分析传统的滑移线场理论的基础上,采用广义塑性理论,证明了岩土材料在非关联流动法则条件下的剪胀角应取? /2,且此时体变必为0。通过对具有精确理论解的经典Prandtl地基承载力课题的数值模拟分析,分别对关联流动法则、非关联流动法则剪胀角取? /2及非关联流动法则剪胀角取0三种情况下地基的承载力进行了计算。结果表明,上述3种情况下得到的极限荷载的误差为2 %,但滑移线场与理论解有较大差异。其中,在非关联流动法则条件下,采用剪胀角? =? /2所得到的滑移线场与Prandtl理论解一致,而采用? =0所得到的滑移线场与理论解有较大的偏差。这说明目前在非关联流动法则条件下采用? = 0虽然可得到相应的正确的极限荷载,但是相应的滑移线场具有较大的误差,同时也证明了岩土材料在非关联流动法则条件下的剪胀角应该选取? /2,而不是目前通常采用的0。 相似文献
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应变软化Tresca材料中扩孔问题解答及其应用 总被引:14,自引:4,他引:10
依据常规试验成果,对岩土材料的剪胀、剪缩和应变软化特性进行简化后,利用弹塑性理论和体积平衡原理,推导出应变软化Tresca材料中扩孔问题的一般解答,并分析了不排水饱和土扩孔问题的规律性,对解决诸如沉桩挤土效应等工程问题具有一定的应用价值。 相似文献
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基于双剪统一强度准则提出了有重材料的双剪统一空间轴对称特征线场理论,并用该特征线场理论研究了岩土工程中竖井井壁压力的计算问题,得出了新的井壁压力计算表达式。算例结果表明,由双剪统一空间轴对称特征线场理论导出的竖井井壁压力随井深的变化是非线性的,强度统一强度准则中的参数b对井壁压力计算结果有较大影响,在相同井深条件下,井壁压力随b增大而减小。 相似文献
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应变软化模拟与圆形隧道衬砌分析 总被引:1,自引:0,他引:1
在岩土工程中,有许多类岩体呈现应变软化特性。在应变软化过程中,如果多个材料强度参数分析发生变化,就很难给出软化问题的解析解。已有的文献研究表明,在经典的弹塑性理论框架下,模拟岩土介质的应变软化过程依然值得深入研究。利用应变软化材料强度参数随塑性应变增加而弱化的特点,提出了将应变软化过程简化为一系列的脆性应力跌落与塑性流动过程的思想,应变软化行为的模拟转化为一系列脆塑性过程的分析。将这种模拟应变软化过程的思想方法用于求解均匀初始应力场中应变软化介质内的圆形隧道开挖问题,研究了衬砌对减少岩土开挖扰动的作用以及考虑应变软化对衬砌内力的影响。数值结果表明,对于应变软化岩土材料,忽略其强度软化的行为是偏于危险的。 相似文献
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应变软化岩体分析原理及其应用 总被引:2,自引:0,他引:2
应变软化是指应力-应变曲线中轴向应力随应变的增加而减小的现象,许多种类的岩土介质在工程扰动的作用下呈现应变软化的行为。在分析应变软化问题时,其应力-应变关系式中的切线刚度矩阵是非正定的,由此导致计算求解的困难。将岩体应变软化过程简化为一系列脆塑性过程,于是应变软化问题的求解归结为一系列脆塑性过程的分析。基于经典弹塑性力学理论,提出了应变软化过程模拟方法及其相应的有限元求解过程,编制了计算程序,研究了应变软化本构模型中不同强度弱化速率对圆形洞室围岩塑形区分布的影响,进一步分析了应变软化模型对应的隧道径向变形沿洞轴方向的分布特征,并与已有监测数据得到的分布规律进行了对比。初步的研究结果表明,应变软化模型得到的计算结果是比较合理的 相似文献
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Progressive failure mechanism in one-dimensional stability analysis of shallow slope failures 总被引:3,自引:0,他引:3
Chia-Nan Liu 《Landslides》2009,6(2):129-137
In many slopes, overstressed zones can develop where the shear stress is larger than the available shear strength. Along a
shear surface within a soil exhibiting a strain-softening behavior, the shear displacement increases while the available shear
strength decreases. The excess shear stress is transferred from the overstressed zone to the adjacent zones, providing more
shear strength. This stress-transferring mechanism induces stress redistribution within the slope and could enlarge the overstress
zone. A one-dimensional model that satisfies the strain compatibility and force equilibrium is proposed for the stability
analysis of a slope of strain-softening behavior. This paper’s objective is to facilitate the application of this model to
estimate stress distribution along the failure surface of a strain-softening slope and thereafter the stability status. The
study presents a set of specific solutions to this model by describing and demonstrating procedures to identify the pattern
of a stress state and to calculate stress distribution within a one-dimensional, strain-softening slope. The progressive failure
mechanism is also investigated by using the proposed approach. As the magnitude of released stress gets large enough, it induces
an overstressed zone adjacent to the initial unstable zone and progressive failure develops. The proposed approach is also
applied to study the pattern of stress redistribution. It is found that the pattern of stress redistribution is affected by
the magnitude of released stress. It is too complex to be reasonably expressed by simple models. Though some limitations exist,
the proposed approach serves as a simple tool for a better understanding of the progressive failure mechanism. 相似文献
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采用基于PFC2D接触黏结模型的离散元数值模型,探讨含石量变化对土石混合体剪切特性的影响。利用室内大型直剪试验对表征土石混合体细观力学性质的模型参数进行标定,模拟分析了4种不同含石量土石混合体在4种不同围压作用下的剪切特性。试验结果表明:相同法向应力作用下,含石量越高,峰值剪应力越大,达到峰值剪应力时的剪应变越大,软化后强度越高,剪胀特性越强,剪切"跳跃"现象越明显。土石混合体摩擦角随含石量增高而增大;黏聚力随含石量增高而减小,含石量超过50%后基本不变。相同含石量的土石混合体,法向应力越高,峰值剪应力越大,应变软化特性越强。土石混合体剪切过程中以克服摩擦能和应变能为主,动能变化几乎为零。 相似文献
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以三峡库区黄土坡滑坡临江I号崩滑体的滑带土为研究对象,研究基质吸力对非饱和滑带土的强度与变形等力学性质的影响。利用GDS非饱和反压直剪仪对滑带土进行了不同净法向应力和基质吸力组合下的直剪试验。试验结果表明:相同的基质吸力作用下,滑带土抗剪强度随着净法向应力的增大而增大。当滑带土试样中基质吸力较小时(50kPa),试样剪切过程中的应力-应变曲线,随着净法向应力的增大表现为应变硬化型。之后随着基质吸力的增加,当吸力大于净法向应力时,剪切应力-应变曲线表现为较明显的达到峰值后软化。反之,应力-应变曲线表现为应变硬化型。相同净法向应力下,抗剪强度随着吸力的增大而增大,剪切应力-应变曲线由低法向应力下的达到峰值后软化向高法向应力下的应变硬化转变。剪切过程的轴向位移表现为:当吸力大于净法向应力时,表现为剪胀; 反之,表现为剪缩。滑带土固结排水剪切条件下得到的黏聚力随着基质吸力呈线性增长关系。得到了滑带土的吸力摩擦角b为13.7,有效内摩擦角有较小增长,平均有效内摩擦角15.9。 相似文献
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For evaluation of slope stability in materials displaying strain-softening behavior, knowledge concerning the failed state material response is of importance. Here, soft sensitive clay is studied. Such clays behave contractant at failure, which for undrained conditions yields a strain-softening behavior governed by the generation of excess pore water pressure. Strain softening is further linked with material instability and the phenomenon of strain localization. In the case of shear band formation, internal pore pressure gradients are then expected to be present for globally undrained conditions in the sensitive clay due to its low permeability. In the present study, this hypothesis and its implications on the global response and shear band properties are investigated. Utilizing an experimental setup with a modified triaxial cell allowing for shear band formation, the effect of varying the displacement rate is studied. Onset of strain localization is interpreted to occur just before or at the peak shear strength. A strong rate dependency of the softening response is observed. Increasing displacement rates give raised brittleness in terms of the slope of the global softening curve due to accumulating pore pressure. Also, reduced shear band thickness and a shear band inclination approaching 45° are obtained for increasing rates. In the context of slope failure in such materials, the rate dependency in the post-peak state opens up for a large variation in behavior, all depending on time as an important factor. 相似文献
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This paper presents an analytical solution for cavity expansion in thermoplastic soil considering non‐isothermal conditions. The constitutive relationship of thermoplasticity is described by Laloui's advanced and unified constitutive model for environmental geomechanical thermal effect (ACMEG‐T), which is based on multi‐mechanism plasticity and bounding surface theory. The problem is formulated by incorporating ACMEG‐T into the theoretical framework of cavity expansion, yielding a series of partial differential equations (PDEs). Subsequently, the PDEs are transformed into a system of first‐order ordinary differential equations (ODEs) using a similarity solution technique. Solutions to the response parameters of cavity expansion (stress, excess pore pressure, and displacement) can then be obtained by solving the ODEs numerically using mathematical software. The results suggest that soil temperature has a significant influence on the pressure‐expansion relationships and distributions of stress and excess pore pressure around the cavity wall. The proposed solution quantifies the influence of temperature on cavity expansion for the first time and provides a theoretical framework for predicting thermoplastic soil behavior around the cavity wall. The solution found in this paper can be used as a theoretical tool that can potentially be employed in geotechnical engineering problems, such as thermal cone penetration tests, and nuclear waste disposal problems. 相似文献
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This paper presents analytical elastic-plastic solutions for static stress loading analysis and quasi-static expansion analysis of a cylindrical cavity in Tresca materials, considering biaxial far-field stresses and shear stresses along the inner cavity wall. The two-dimensional static stress solution is obtained by assuming that the plastic zone is statically determinate and using the complex variable theory in the elastic analysis. A rigorous conformal mapping function is constructed, which predicts that the elastic-plastic boundary is in an elliptic shape under biaxial in situ stresses, and the range of the plastic zone extends with increasing internal shear stresses. The major axis of the elliptical elastic-plastic boundary coincides with the direction of the maximum far-field compression stress. Furthermore, considering the internal shear stresses, an analytical large-strain displacement solution is derived for continuous cavity expansion analysis in a hydrostatic initial stress filed. Based on the derived analytical stress and displacement solutions, the influence of the internal shear stresses on the quasi-static cavity expansion process is studied. It is shown that additional shear stresses could reduce the required normal expansion pressure to a certain degree, which partly explains the great reduction of the axial soil resistance due to rotations in rotating cone penetration tests. In addition, through additionally considering the potential influences of biaxial in situ stresses and shear stresses generated around the borehole during drillings, an improved cavity expansion approach for estimating the maximum allowable mud pressure of horizontal directional drillings (HDDs) in undrained clays is proposed and validated. 相似文献