Strength properties and evolution laws of cracked sandstone samples in re-loading tests

To study the strength properties and evolution laws of cracked sandstone samples in re-loading tests,strength and damage evolution properties of intact sandstone samples were first analyzed through the triaxial compression tests carried on TAW-2000 microcomputer control electro-hydraulic servo rock triaxial test system. Damage evolution models were established based on dilatancy properties realizing the real-time and quantitative evaluation of samples damage state in loading process. On this basis, samples with different damage were obtained by pre-peak, peak point, post-peak and residual strength stage unloading tests in the loading process of intact samples. The characteristics of the stress-strain curves and strength evolution laws were studied through the re-loading tests of samples with different damage under different stress states. The experimental results showed that the slope of stress-strain curves, peak strength and residual strength of cracked samples increased linearly with confining pressure and decreased linearly with damage. The equivalent cohesion decreased with damage in the exponential decay curves. The mechanics properties of samples transformed from strain softening to strain hardening with damage.     

泥质细砂岩材料破坏与强度衰减研究

为了认识真实的岩石材料破坏和强度衰减规律,通过多组常规的单轴压缩试验和不同围压下的三轴压缩试验对泥质细砂岩的材料破坏过程和抗压强度进行了实测．把前面试验破裂形成的不规则岩块浇注在混凝土制成的“剪切壳”中,运用XJ-1型携带式剪切仪进行了自行设计的压剪试验,获得了岩块在压剪过程中的剪切力一压应力关系曲线,以此来测得破裂岩块的自身材料强度．通过对比先前压缩试验得到的极限莫尔包络线,研究了破坏前完整岩样与破坏后损伤岩块间的强度变化．讨论了不同试验方法,损伤程度,尺寸效应,材料异性对岩石强度衰减的影响．结果表明,岩石在破坏过程中环向应变与体积应变在峰后近乎以直线形式增长,岩块抗剪强度表现出尺寸效应,岩样伴随着破裂演变材料强度发生衰减．     

Mechanical properties and failure characteristics of fractured sandstone with grouting and anchorage简

Based on uniaxial compression experimental results on fractured sandstone with grouting and anchorage, we studied the strength and deformation properties, the failure model, crack formation and evolution laws of fractured sandstone under different conditions of anchorage. The experimental results show that the strength and elastic modulus of fractured sandstone with different fracture angles are significantly lower than those of intact sandstone. Compared with the fractured samples without anchorage, the peak strength, residual strength, peak and ultimate axial strain of fractured sandstone under different anchorage increase by 64.5–320.0%, 62.8–493.0%, and 31.6–181.4%, respectively. The number of bolts and degree of pre-stress has certain effects on the peak strength and failure model of fractured sandstone. The peak strength of fractured sandstone under different anchorage increases to some extent, and the failure model of fractured sandstone also transforms from tensile failure to tensile–shear mixed failure with the number of bolts. The pre-stress can restrain the formation and evolution process of tensile cracks, delay the failure process of fractured sandstone under anchorage and impel the transformation of failure model from brittle failure to plastic failure.     

基于破坏类型的本溪灰岩本构关系研究

根据单轴和三轴条件下本溪灰岩的压缩试验和峰后循环加载试验,总结本溪灰岩的强度、变形随围压的变化规律,研究不同围压下本溪灰岩的破坏过程和重复加载过程,分析不同应力条件下本溪灰岩破坏的方式.结果表明:本溪灰岩在应力刚过峰值且未完全进入残余强度阶段,其弹性模量与峰前相同,此阶段进行循环加载时,新的峰值应力低于卸载点应力;在残余强度阶段,残余强度不再随重复加载发生明显变化;采用比较峰值时的环向弹性应变值与环向应变值的方法来判别本溪灰岩的破坏类型是可行的;不同围压下,本溪灰岩的破坏方式有张性破坏和剪切破坏2种类型,这2种破坏方式下本构模型的控制参数是不同的.分别选取了环向应变和剪切应变作为控制参数建立了本构模型,该模型很好地描述了本溪灰岩峰后阶段的应力脆性跌落现象及应力与应变的关系.     

不同围压下灰岩力学特性及破坏力学模型研究

为了研究围压对灰岩力学特性及破坏力学模型的影响,采用MTS815对完整灰岩岩样进行三轴压缩试验。基于岩样宏观破坏形式,建立张拉剪切破坏模型,构建峰值强度与围压关系表达式;讨论张拉剪切模型与纯剪切模型对岩石剪切强度参数值（粘聚力与内摩擦角）的影响。研究结果表明：岩样弹性模量、抗压强度及残余强度均随围压升高而增大,且残余强度与围压呈非线性相关;当岩样最终破坏时,环向应变与轴向应变比值随围压升高呈负指数降低;一定围压范围内,岩石抗压强度受剪切强度参数和抗拉强度影响;张拉剪切模型确定岩石剪切强度参数值随破裂角增大而增大,与纯剪切模型相比,数值均较小。因此,低围压时,考虑岩石破坏模型具有一定的实际意义。     

弱胶结泥质软岩的三向压缩损伤特性

针对西部矿区弱胶结软岩在复杂应力状态下的损伤行为,采用三轴压缩试验和等效应变原理,得到泥岩在三轴压缩下损伤变量的演化规律.基于weibull分布,引入修正系数λ建立可考虑泥岩残余阶段变形的统计损伤本构模型.结果分析表明：在三轴压缩下损伤变量呈先减小后增大的变化趋势,损伤演化过程没有水平段,表明受压时泥岩没有实际意义上的线弹性阶段;损伤变量减增变化的转折点恰好为全应力-应变曲线的屈服点和残余阶段起始点,说明该类泥岩的破坏起始于屈服点;当围压<3 MPa时,损伤起始点随围压增大而后移,当围压>3 MPa时,损伤初始点有前移的趋势,高围压下泥岩的峰前塑性提高,产生整体塑性剪切破坏;本构模型能够较准确地描述泥岩破坏的三阶段.     

三轴加卸载下花岗岩脆性破坏及应力跌落规律

基于2种卸荷应力路径和常规三轴压缩试验,研究了加卸载条件下花岗岩的变形破坏及应力脆性跌落特征。卸荷条件下岩石变形主要是向卸荷（主）方向回弹或拉伸变形为主,而非或次卸荷方向的塑性变形很小,峰后应力应变曲线呈现明显的脆性特征。而加载条件下岩石以轴向压缩变形为主,且压缩塑性变形随围压增大而增大;卸荷条件下破坏岩石各种级别的张拉裂缝较多,张裂面一般垂直于卸荷主方向,高初始围压时双向卸荷甚至在次卸荷方向也可产生环形张拉裂缝。破坏围压较高时破裂面剪性特征相对明显,但剪性裂面一般追踪张性破裂面发展而成,并在剪切面两侧发育较多微张裂缝。而相对较高围压下常规三轴压缩岩石一般为剪切破坏,张性裂缝很少;常规三轴压缩岩石的应力脆性跌落系数随围压的增大而增大,而在卸荷条件下却随初始围压的增大而减小。相同初始围压时,卸荷条件下比加载时的应力脆性跌落系数小得多,方案Ⅱ在初始围压达到30 MPa时甚至出现负值,应力脆性跌落系数R依次为：RⅢ〉RⅠ〉RⅡ。     

卸围压条件下砂岩变形破坏特性试验研究

从可释放弹性应变能角度对岩石卸围压条件下破坏特性进行研究,利用MTS815电液压伺服可控制刚性试验机进行保持轴向变形不变的卸围压试验,根据卸围压试验数据,分析了该砂岩卸围压过程中变形、强度、弹性模量及能量变化特征。结果表明:随着围压逐渐降低,岩样发生侧向不断扩容;轴向应力逐渐降低,呈现出非线性特征;弹性模量在初始阶段几乎不变化,越过破坏点之后大幅降低;可释放的弹性应变能在初始阶段增大比较缓慢,当围压降低至一定程度时急剧增大;推导出基于可释放弹性应变能的卸荷岩石的整体破坏准则Ue0。     

Mechanical properties of deep-buried marble material under loading and unloading tests

The mechanical properties are essentially different when rock material is subjected to loading or unloading conditions. In this study, loading and unloading tests with various confining pressures are conducted to investigate the mechanical properties of marble material samples taken from the deep diversion tunnels of Jinping II Hydropower Station. The stress-strain relationship, failure characteristics and strength criterion are compared and analyzed based on the experiment results. The results show: in the loading and unloading test, peak strength, lateral strain, axial strain and plastic deformation increase significantly as the confining pressure increases. Lateral strain increased significantly and obvious lateral dilatancy can be observed to the change of confining pressure; The fracture mode is mainly the single shear fracture for the triaxial compression test and post-peak test, angle between the failure surface and the ends of the rock material becomes smaller as the confining pressure increases. Hoek-Brown strength criterion reflects the strength characteristics of marble material under two different unloading conditions, and has some supplementary effects to the rock material of mechanical field.     

不同固化剂含量改良砂土力学特性数值模拟

对不同固化剂含量条件下的改良砂土进行室内无侧限单轴压缩试验,利用颗粒流数值模拟软件建立对应数值模型并进行数值模拟试验。通过研究不同固化剂含量下试样在不同加载阶段的微观破坏机理,发现固化剂的含量显著影响试样的抗压强度、抵抗变形能力以及试样破坏的宏观模式。随着固化剂含量的增加,试样的峰值强度、弹性模量均增大,而峰值应变减少。根据微观裂隙、接触力链及颗粒位移场的发育演化过程可以看出,随着固化剂含量增多,试样容易出现应力集中现象,发生局部破坏,破坏面由整体贯穿逐渐变为局部压碎破坏,破裂后力链弯曲程度由大逐渐变小,颗粒位移方向由紊乱分散逐渐均匀有序,试样的破坏模式由拉剪复合型破坏为主过渡到剪切破坏为主。     

卸围压条件下花岗岩强度特性及三维裂隙演化规律

为研究卸围压条件下花岗岩强度特性和三维裂隙演化规律,对花岗岩开展了常规三轴压缩、卸围压-加轴压和分级卸围压-加轴压循环加卸载3种不同应力路径力学试验,获得对应的轴、径向应力-应变曲线;采用CT扫描三维重构技术获得岩石卸围压过程中和破坏后内部裂隙分布三维图像.结果表明:相对于常规三轴压缩试验,试件在卸荷条件下脆性破坏特征更加显著,分级卸围压-加轴压循环加卸载会增大花岗岩的峰后延性,降低破坏轴压和破坏剧烈程度;两种卸围压方案都会使花岗岩的承载能力降低30%左右;卸荷作用下花岗岩宏观破裂为拉剪组合状,拉剪过渡不明显,表观裂隙是内部裂隙向外扩展的结果;花岗岩在卸荷作用下峰前产生的裂隙量较少,大量裂隙在峰后产生,破裂具有突发性和瞬时性,围压较低时宏观裂隙首先在试件边缘产生,围压较高时宏观裂隙首先在试件中部产生.     

压力水-岩耦合作用下砂岩断口微观破坏机理

为了研究流固耦合作用下岩石的损伤劣化机理,以砂岩岩样为研究对象,采用流固耦合力学实验系统开展轴压水压耦合作用下单轴压缩、三轴压缩及三轴蠕变实验,借助扫描电子显微镜对岩样破裂断口的微观结构特征进行分析。结果表明:单轴饱水岩样破裂断口表面比干燥岩样出现更多的裂纹核,且断口形貌以沿晶断裂为主,穿晶断裂为辅;随着水压增大,三轴压缩岩样破裂断口表面裂纹核逐渐变少,剪切平行裂纹逐渐增多,岩样的宏观破坏形式从以张拉破坏为主逐渐向以剪切破坏为主转变;与三轴压缩岩样断口相比,三轴蠕变岩样破裂断口表面平整度和光滑度较差,晶体间联结更加紧密,剪切裂纹密度和深度增加。     

Physical and mechanical properties of sandstone containing a single fissure after exposure to high temperatures

In order to investigate the physical and mechanical properties of sandstone containing fissures after exposure to high temperatures,fissures with different angles α were prefabricated in the plate sandstone samples,and the processed samples were then heated at 5 different temperatures.Indoor uniaxial compression was conducted to analyze the change rules of physical properties of sandstone after exposure to high temperature,and the deformation,strength and failure characteristics of sandstone containing fissures.The results show that,with increasing temperature,the volume of sandstone increases gradually while the quality and density decrease gradually,and the color of sandstone remains basically unchanged while the brightness increases markedly when the temperature is higher than 585 ℃;the peak strength of sandstone containing fissures first decreases then increases when the temperature is between 25℃and 400℃.The peak strain of sandstone containing fissures increases gradually while the average modulus decreases gradually with increasing temperature,and the mechanical properties of sandstone show obvious deterioration after 400 ℃.The peak strain of sandstone containing fissures increases gradually while the average modulus decreases gradually with increasing temperature;with increasing angle αof the fissure,the evolution characteristics of the macro-mechanical parameters of sandstone are closely related to the their own mechanical properties.When the temperature is 800 ℃,the correlation between the peak strength and average modulus of sandstone and the angle α of the fissure is obviously weakened.The failure modes of sandstone containing fissures after high temperature exposure are of three different kinds including:tensile crack failure,tensile and shear cracks mixed failure,and shear crack failure.Tensile and shear crack mixed failure occur mainly at low temperatures and small angles;tensile crack failure occurs at high temperatures and large angles.     

Statistical damage constitutive model for concrete materials under uniaxial compression

According to the damage mechanism of concrete material during the uniaxial compressive failure process,this paper further establishes the statistical damage constitutive model of concrete subjected to uniaxial compressive stress based on the statistical damage model under uniaxial tension. The damage evolution law in the direction subjected to pressure is confirmed by the tensile damage evolution process of lateral deformation due to the Poisson effect,and then the compressive stress-strain relationship is defined. The peak nominal stress state and the critical state occurring in the macro longitudinal distributed splitting cracks are distinguished. The whole loading process can be divided into the even damage phase and the local breakage phase. The concrete specimen is divided into the failure process zone and the resting unloading zone. The size effects during the local breakage phase under the uniaxial monotonic compressive process and the hysteretic phenomenon under the cyclic compressive loading process are analyzed. Finally,the comparison between theoretical results and experimental results preliminarily verifies the rationality and feasibility of understanding the failure mechanism of concrete through the statistical damage constitutional law.     

基于Voigt与Reuss模型的岩土二元介质破损规律

在破损力学的理论框架下,非均质岩土材料被抽象为由胶结元和摩擦元组成的二元介质。本文基于Voigt和Reuss模型推导出满足变形协调和应力连续条件的岩土破损力学本构方程,通过算例分析三轴复杂应力状态下岩土二元介质的破损规律、荷载及变形的分担情况。结果表明:岩土二元介质的破损行为与胶结元、摩擦元的物理力学特性、围压和应力水平等有关,随着应力水平的增大,胶结元在抵抗轴向压力中发挥的作用逐渐减小,而在抵抗轴向变形中发挥的作用则先减小后增大;随着围压的增大,胶结元在抵抗轴向压力和剪切力中发挥的作用均逐渐减小,而在抵抗轴向变形和剪切变形中发挥的作用均逐渐增大。     

Fracture evolution characteristics of sandstone containing double fissures and a single circular hole under uniaxial compression

The uniaxial compression experiments on the sandstone samples containing double fissures and a single circular hole were carried out by using electro-hydraulic servo universal testing machine to investigate the effect of rock bridge angle β and fissure angle α on mechanical properties and evolution characteristics of cracks.The results show that the peak strength,peak strain and elastic modulus of defected specimens decrease comparing with those for intact sample,and show a decreased trend firstly and then increase with β changing from 0° to 90°.The peak strength and elastic modulus achieve the minimum value as the rock bridge angle is 60°,while the peak strain reaches the minimum value with the rock bridge angle of 45°.The crack initiation of tested rock samples occurs firstly in stress concentration areas at tips of prefabricated fissures under uniaxial compression,and then propagates constantly and coalescences with the prefabricated hole.Some secondary cracks initiate and propagate as well until buckling failure happens.The rock bridge angle has a great influence on crack initiation,coalescence,final failure mode,crack initiation stress and transfixion stress.The peak strength varies significantly,while the elastic modulus and peak strain change slightly,and the failure modes are also different due to the influence of fissure angle.     

饱和花岗岩水-力耦合力学特性试验研究

采用全应力多场耦合三轴试验仪,对饱和花岗岩开展了不同加载速率、不同围压、不同孔压下的水-力耦合三轴压缩排水试验,分别给出了饱和花岗岩在不同加载速率、不同有效围压下的应力-应变曲线,分析了峰值强度、峰值应变、弹性模量随加载速率以及有效围压的变化规律。研究结果表明:(1)在不同有效围压和加载速率的条件下,岩样的应力应变曲线均经历了非线性压密、弹性、屈服、峰后四个阶段。偏压加载初期非线性压密阶段比较明显,而随着围压的升高非线性段逐渐消失;由于花岗岩的致密性较高,因而曲线的弹性阶段较长且相对平滑;在屈服和峰后阶段,岩石呈现出明显的脆—延性转化的过程。(2)饱和花岗岩的峰值强度随着加载速率的增加而增大;且当有效围压相同时,岩石的峰值强度大致相等,抵抗外界荷载的能力大致相同。(3)缓慢加载条件下饱和花岗岩的峰值应变表现出加载速率强化效应,但强化效果是有限的;且在有效围压相同条件下,随着围压和孔压的同步增长,峰值应变也呈增长的趋势。(4)弹性模量随着加载速率的增加呈二次多项式增长,但随着围压和孔压的同步增长而逐渐降低。     

Energy dissipation of cavity expansion based on generalized non-linear failure criterion under high stresses

Based on the compression mechanism for analyzing the cavity expansion problem in soil under high stresses, generalized non-linear failure criterion and large strain and energy conservation in plastic region during the cavity expanding were adopted. The energy conservation equation was established and the limited pressure of cavity expansion under high stresses was given based on the energy dissipation analysis method, in which the energy generated from cavity expansion is absorbed by the volume change and shear strain caused in soil. The factors of large strain and dilatation were considered by the proposed method. The analysis shows that the limited pressure is determined by failure criterion, stress state, large deformation characteristic, dilatation and strength of soil. It is shown from the comparison that the results with the proposed method approximate to those of the in-situ method. The cavity expansion pressure first decreases and then increases nonlinearly with both of shear modulus and dilatation increasing.     

模拟堆载作用的黄土边坡土体变形机理试验

通过固结不排水剪试验,研究了堆载作用下不同深度、含水量和围压的原状黄土的变形和破坏特征,并从 黄土的微观结构角度分析了产生这一现象的原因,结合黄土边坡特殊的工程地质条件,分析了堆载作用下黄土 边坡土体的变形破坏过程。试验结果表明,不同深度、含水量和围压的原状黄土的应力应变曲线和抗剪强度具 有不同的特征;特殊的工程地质条件,使黄土坡体的某些部位形成了堆载作用下不利于黄土材料强度保持的含 水量和围压的组合,导致了这些部位黄土的变形破坏,进而诱发坡体的变形破坏。     

水影响下油页岩三轴压缩力学特性试验研究

为研究油页岩的力学特性,试验采用吉林桦甸油页岩试样,利用YE-200A液压式压力试验机和自制三轴压力室,进行油页岩三轴压缩实验。通过不同围压、不同水化时间的三轴压缩实验,揭示油页岩全应力-应变、峰值强度、弹性模量、泊松比随不同围压和水化时间的变化规律,以及油页岩的破坏形式。结果表明,水化对油页岩的力学特性影响很大,使其峰值强度和弹性模量降低,同时,还表现出明显的延性效应;另外,围压和水化作用的对比分析表明,在围压影响下水化对油页岩强度影响比自然状态下小,油页岩因原岩裂隙发育不同水化后呈现不同的破坏形式。