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Effect of loading rate on the mechanical response and energy evolution of skarn rock subjected to constant-amplitude cyclic loading
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作者 WU Yun-feng WANG Yu +5 位作者 LI Chang-hong ZHOU Bao-kun LI Peng CAI Mei-feng SUN Chang-kun TIAN Zi-cheng 《Journal of Central South University》 2025年第3期1117-1140,共24页
This work aims to reveal the mechanical responses and energy evolution characteristics of skarn rock under constant amplitude-varied frequency loading paths.Testing results show that the fatigue lifetime,stress−strain... This work aims to reveal the mechanical responses and energy evolution characteristics of skarn rock under constant amplitude-varied frequency loading paths.Testing results show that the fatigue lifetime,stress−strain responses,deformation,energy dissipation and fracture morphology are all impacted by the loading rate.A pronounced influence of the loading rate on rock deformation is found,with slower loading rate eliciting enhanced strain development,alongside augmented energy absorption and dissipation.In addition,it is revealed that the loading rate and cyclic loading amplitude jointly influence the phase shift distribution,with accelerated rates leading to a narrower phase shift duration.It is suggested that lower loading rate leads to more significant energy dissipation.Finally,the tensile or shear failure modes were intrinsically linked to loading strategy,with cyclic loading predominantly instigating shear damage,as manifest in the increased presence of pulverized grain particles.This work would give new insights into the fortification of mining structures and the optimization of mining methodologies. 展开更多
关键词 cyclic loading loading rate constant amplitude deformation characteristics energy dissipation
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Forming and Springback Prediction of Strips Under Multi-square Punch Concave Forming Process Considering Partial-unloading Effects
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作者 LIANG Qi-yu ZHANG Long ZHU Ling 《船舶力学》 EI CSCD 北大核心 2024年第12期1953-1969,共17页
To further investigate the forming mechanism and springback characteristics of strips under multi-square punch forming (MSPF) considering partial-unloading effects, a series of concave form ing tests of strips are con... To further investigate the forming mechanism and springback characteristics of strips under multi-square punch forming (MSPF) considering partial-unloading effects, a series of concave form ing tests of strips are conducted on the MSPF machine. This paper aims to reveal the physical mecha nism of the elastic-plastic deformation in the MSPF process considering the effect of the forming ap proaches, and derive appropriate mathematical interpretations. The theoretical model is firstly estab lished to analyse the concave forming mechanism and springback characteristics of the strip, and its accuracy is then validated by experimental data. The forming history and load evolutions are depicted to explore the required forming capacity through the proposed analytical method. Besides, the paramet ric studies are carried out to discuss their effects on the springback of the strip. The results suggest that the deformation paths of the strip are influenced by the forming approach, and the springback of the strip in convex forming is larger than that in concave forming. 展开更多
关键词 multi-square punch forming(MSPF) follower load elastic-plastic deformation partial unloading springback prediction
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Ultimate Strength of Hull Perforated Plate Under Extreme Cyclic Loading
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作者 ZHENG Ji-qian FENG Liang CHEN Xu-guang 《船舶力学》 EI CSCD 北大核心 2024年第12期1925-1939,共15页
In this study, the influence of opening parameters on the ultimate strength of perforated plates subjected to extreme cyclic loading in the presence of material kinematic hardening and isotro pic hardening was analyze... In this study, the influence of opening parameters on the ultimate strength of perforated plates subjected to extreme cyclic loading in the presence of material kinematic hardening and isotro pic hardening was analyzed. It is found that the ultimate strength of the perforated plates decreases rapidly and stabilizes in the first four cycles. Plates with oblong openings have a greater ultimate strength compared to plates with rectangular openings, while the relative strengthening ratio decreases over the duration of the cycle. The location of the openings is also an important parameter that affects the strength of the structure, as the plates with openings close to the edges in the longitudinal direction have higher strengths, while in the transverse direction the strengths are higher when the openings are close to the center. Among the three opening-strengthening methods compared, the Carling stiffener method maintains a better strengthening effect under cyclic loads for many periods. 展开更多
关键词 extreme cyclic loading perforated plate ultimate strength
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Strength and damage evolution mechanism of rock mass with holes under cyclic loading
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作者 LIU Hong-tao HAN Zi-jun +6 位作者 GUO Xiao-fei LIU Qin-yu QIAO Zhong-jin LIANG Jia-lu CHENG Wen-cong ZHANG Xi-ying ZHANG Yu-qi 《Journal of Central South University》 SCIE EI CAS CSCD 2024年第8期2717-2735,共19页
The damage and failure law of rock mass with holes is of great significance to the stability control of roadways. This study investigates the mechanical properties and failure modes of porous rock masses under cyclic ... The damage and failure law of rock mass with holes is of great significance to the stability control of roadways. This study investigates the mechanical properties and failure modes of porous rock masses under cyclic loading, elucidates the acoustic emission (AE) characteristics and their spatial evolution, and establishes the interrelation among AE, stress, strain, time, and cumulative damage. The results reveal that the rock mass with holes and the intact rock mass show softening and hardening characteristics after cyclic loading. The plastic strain of the rock mass with holes is smaller than that of the intact rock mass, and the stress −strain curve shows hysteresis characteristics. Under uniaxial compression, the pore-bearing rock mass shows the characteristics of higher ringing count, AE energy, b-value peak, and more cumulative ringing count in the failure stage, while it shows lower characteristics under cyclic action. At the initial stage of loading, compared with the intact rock mass, the pore-containing rock mass shows the characteristics of a low b-value. The AE positioning and cumulative damage percentage are larger, and the AE positioning is denser around the hole. The specimen with holes is mainly shear failure, and the complete specimen is mainly tensile shear failure. 展开更多
关键词 roadway surrounding rock control acoustic emission cyclic loading failure mode precursor of destruction
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Calculation of foundation pit deformation caused by deep excavation considering influence of loading and unloading 被引量:13
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作者 黄明 刘新荣 +1 位作者 张乃烊 沈启炜 《Journal of Central South University》 SCIE EI CAS CSCD 2017年第9期2164-2171,共8页
A new analytical solution for ground surface settlement induced by deep excavation is proposed based on the elastic half space Melan’s solution,and the analytical model is related to the physical and mechanical prope... A new analytical solution for ground surface settlement induced by deep excavation is proposed based on the elastic half space Melan’s solution,and the analytical model is related to the physical and mechanical properties of soil with the loading and unloading action during excavation process.The change law of earth pressure of the normal consolidation soil after the foundation pit excavation was analyzed,and elastic displacement calculation methods of analytic solution were further established given the influence of excavation and unloading.According to the change of stress state in the excavation process of foundation pit,the planar mechanical analysis model of the foundation excavation problem was established.By combining this model with the physical equations and geometric equations of plane strain problem with consideration of the loading and unloading modulus of soil,constitutive equation of the plane strain problem was also established.The loading and unloading modulus formula was obtained by using the parameter calculation method in Duncan-Chang curve model.The constitutive equation obtained from the model was used to calculate the soil stress state of each point to determine its loading and unloading modulus.Finally,the foundation pit displacement change after excavation was calculated,and thus the soil pressure distribution after retaining structure deformation.The theoretical results calculated by making corresponding programs were applied to engineering practice.By comparing the conventional calculation results with monitoring results,the practicability and feasibility of the calculation model were verified,which should provide a theoretical basis for similar projects. 展开更多
关键词 foundation pit Melan's solution loading and unloading stress state Duncan-Chang curve model
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Experimental investigation on damage evolution behaviour of a granitic rock under loading and unloading 被引量:10
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作者 戴兵 赵国彦 +1 位作者 H.KONIETZKY P.L.P.WASANTHA 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第5期1213-1225,共13页
In-situ rock failures can result from stress changes due to pure loading and/or unloading. Understanding of the damage evolution behavior in brittle rocks during loading and unloading is imperative for the designs of ... In-situ rock failures can result from stress changes due to pure loading and/or unloading. Understanding of the damage evolution behavior in brittle rocks during loading and unloading is imperative for the designs of rock structures. In this paper, we investigate the damage evolution characteristics of a granitic rock during loading and unloading after a series of triaxial experiments performed at different confining pressures. The axial stress-axial strain variations of the tested specimens revealed that the specimens undergoing unloading fail with a lower axial strain compared to the specimens failed purely by loading. Higher confining pressures were observed to exacerbate the difference. Volumetric strain versus axial strain curves indicated that the curves reverse the trend with the beginning of major damage of specimens. We suggest here a new form of equation to describe the secant modulus variation of brittle rocks against the axial stress for the unloading process. Failure mechanisms of tested specimens showed two distinct patterns, namely, specimens under pure loading failed with a single distinct shear fracture while for the unloading case specimens displayed multiple intersecting fractures. In addition, analysis of the evolution of dissipation and elastic energy during deformation of the specimens under loading and unloading conditions showed differentiable characteristics. Moreover, we evaluated the variations of two damage indices defined based on the energy dissipation and secant modulus evolution during deformation and observed that both of them satisfactorily distinguish key stages of damage evolution. 展开更多
关键词 damage evolution loading and unloading granitic rock triaxial testing
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Effects of axial cyclic loading at constant confining pressures on deformational characteristics of anisotropic argillite 被引量:2
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作者 张久长 周苏华 +1 位作者 方理刚 许湘华 《Journal of Central South University》 SCIE EI CAS 2013年第3期799-811,共13页
Triaxial cyclic loading tests have been performed to assess the influence of plastic deformation on inelastic deformational properties of anisotropic argillite with bedding planes which is regarded as a kind of transv... Triaxial cyclic loading tests have been performed to assess the influence of plastic deformation on inelastic deformational properties of anisotropic argillite with bedding planes which is regarded as a kind of transversely isotropic media.Considering argillite's anisotropy and inelastic deformational properties,theoretical formulae for calculating oriented elastic parameters were deduced by the unloading curves,which can be better fitted for the description of its elasticity than loading curves.Test results indicate that with the growth of accumulated plastic,strain,the apparent elastic modulus of argillite decreases in a form of exponential decay function,whereas the apparent Poisson ratio increase in a form of power equation.A ratio of unloading recoverable strain to the total strain increment occurred during a loading cycle is defined to illustrate the characteristic relations between anisotropic coupled elasto-plastic deformation and plastic strain.It is significant to observe that high stress level and plastic history have an inhibiting effect on argillite anisotropy. 展开更多
关键词 anisotropic argillite coupled elasto-plasticity cyclic loading tests elastic parameters plastic strain
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Analytical solution to one-dimensional consolidation in unsaturated soils under sinusoidal cyclic loading
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作者 冯君 巫锡勇 +1 位作者 朱宝龙 杨期祥 《Journal of Central South University》 SCIE EI CAS CSCD 2015年第2期646-653,共8页
An analytical solution was presented to the unsaturated soil with a finite thickness under confinement in the lateral direction and sinusoidal cyclic loading in the vertical direction based on Fredlund's one-dimen... An analytical solution was presented to the unsaturated soil with a finite thickness under confinement in the lateral direction and sinusoidal cyclic loading in the vertical direction based on Fredlund's one-dimensional consolidation equation for unsaturated soil. The transfer relationship between the state vectors at the top surface and any depth was gained by applying the Laplace transform and Cayley-Hamilton mathematical methods to the governing equations of water and air, Darcy's law and Fick's law. The excess pore-air and pore-water pressures and settlement in the Laplace-transformed domain were obtained by using the Laplace transform with the initial and boundary conditions. The analytical solutions of the excess pore-air and pore-water pressures at any depth and settlement were obtained in the time domain by performing the inverse Laplace transforms. A typical example illustrates the consolidation characteristics of unsaturated soil under sinusoidal loading from analytical results. Finally, comparisons between the analytical solutions and results of the numerical method indicate that the analytical solution is correct. 展开更多
关键词 unsaturated soil analytical solution one-dimensional consolidation excess pore-water pressure excess pore-air pressure SETTLEMENT sinusoidal cyclic loading
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Numerical simulation on behavior of pile foundations under cyclic axial loads 被引量:5
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作者 ZHAO Ming-hua HENG Shuai ZHENG Yue 《Journal of Central South University》 SCIE EI CAS CSCD 2017年第12期2906-2913,共8页
On the basis of the two dimensional finite element analysis model, the pile foundations' mechanical effect of the rigid pile composite foundation under the dynamic load was researched. Through the research, the de... On the basis of the two dimensional finite element analysis model, the pile foundations' mechanical effect of the rigid pile composite foundation under the dynamic load was researched. Through the research, the development law and deformation property of axial force of pile body, shaft resistance of pile, and cumulative settlement of pile head under vertical cyclic dynamic loads were concluded. Through the comparison and analysis of the test results of dynamic models, the test results of Poulos(1989) and cumulative settlement model of the single pile under cyclic loads were confirmed. Based on the above research, Fortran language was adopted to introduce the soil attenuation factor, the secondary development of relevant modules of ABAQUS was carried out, and the effect of soil attenuation factor on dynamic property of pile-soil was discussed further. 展开更多
关键词 PILE FOUNDATION ABAQUS cyclic dynamic load numerical simulation PILE-SOIL interaction SECONDARY development
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Closure behavior of rock joint under dynamic loading 被引量:6
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作者 王卫华 李夕兵 +1 位作者 张义平 左宇军 《Journal of Central South University of Technology》 EI 2007年第3期408-412,共5页
The normal compression tests on intact samples and artificial joints with different saw-tooth shape under cyclic loading and half-sine waves of different frequencies were performed by using Instron1342 servo-controlle... The normal compression tests on intact samples and artificial joints with different saw-tooth shape under cyclic loading and half-sine waves of different frequencies were performed by using Instron1342 servo-controlled material testing machine. The specimens were made artificially with mortar. The loading frequency ranged from 0.005 Hz to 0.1 Hz. The experimental results show that joint closure curves are non-linear and concave up. The stress-deformation curves under cyclic loading exhibit hysteresis and permanent set that diminish rapidly and keep constant finally on successive cycles. Normal displacement successively decreases from the joint J1 to J2, to J3 under the same normal loads regardless of frequency. Considering the loading frequency effect, normal displacement of joint J1 decreases with increasing the loading frequency except that the loading frequency is 0.05 Hz. Normal displacement of joint J2 increases with increasing the loading frequency. Normal displacement of joint J3 increases with increasing the loading frequency when the frequency ranges from 0.005 Hz to 0.05 Hz. Its normal displacement, however, becomes least when the loading frequency is 0.1 Hz. 展开更多
关键词 joint closure behavior cyclic load surface geometry load frequency
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Bearing characteristics and fatigue damage mechanism of multi-pillar system subjected to different cyclic loads 被引量:5
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作者 ZHOU Zi-long WANG Hai-quan +3 位作者 CAI Xin ZANG Hai-zhi CHEN Lu LIU Fu 《Journal of Central South University》 SCIE EI CAS CSCD 2020年第2期542-553,共12页
Aiming to investigate the fatigue damage mechanism and bearing characteristics of multi-pillar system under cyclic loading,a series of axial cyclic loading tests with different cyclic amplitudes were carried out on tr... Aiming to investigate the fatigue damage mechanism and bearing characteristics of multi-pillar system under cyclic loading,a series of axial cyclic loading tests with different cyclic amplitudes were carried out on triple-pillar marble specimens.The acoustic emission(AE)and digital image correlation(DIC)were jointly applied to monitoring and recording damage evolution and failure behavior of each pillar,which reproduced the cataclysmic instability process of underground pillar groups.Experimental results indicated that the cyclic amplitude exceeding the threshold of damage initiation weakened the resistance to deformation,resulting in obvious release of dissipated energy and the reduction of bearing capacity.Conversely,after low-amplitude cyclic loading,both the pre-peak bearing capacity and the post-peak ductility of the pillar system increased due to the compaction of initial defects,indicating that the peak bearing capacity was closely related to the extent of pre-peak fatigue damage.The axial strain of each pillar was measured by DIC virtual extensometer to present the damage extent during cyclic loading phase.Meanwhile,fracture evolution of typical load drop points was also characterized by transverse strain fields(εxx),and observations showed that the damage extent of key pillar undergoing high-amplitude cyclic loads was more serious and violent,accompanied by the ejection of rock debris and loud noises. 展开更多
关键词 multi-pillar system cyclic loading fatigue damage bearing characteristics acoustic emission(AE) digital image correlation(DIC)
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动载循环作用下砂岩的动态力学响应及破坏特征 被引量:1
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作者 赵光明 秦志宏 孟祥瑞 《采矿与岩层控制工程学报》 北大核心 2025年第1期18-33,共16页
针对深部矿井开采过程中岩体自稳能力差、动力灾害频发等问题,采用自主研发的ZST-1500微机控制电液伺服煤岩动静组合自适应耦合试验系统,开展了不同幅值与频率的砂岩单轴动载扰动试验,分析了动载作用下砂岩动态力学响应规律与破坏特征... 针对深部矿井开采过程中岩体自稳能力差、动力灾害频发等问题,采用自主研发的ZST-1500微机控制电液伺服煤岩动静组合自适应耦合试验系统,开展了不同幅值与频率的砂岩单轴动载扰动试验,分析了动载作用下砂岩动态力学响应规律与破坏特征。研究结果表明:(1)随动载幅值增加,砂岩滞回环由“疏-密”向“疏-密-疏”变化,依据动载循环期间试样塑性变形量,将动载周期划分为对数上升阶段Ⅰ、匀速损伤阶段Ⅱ和指数加速阶段Ⅲ。(2)动载对试样强度的弱化作用存在阈值,当动载水平为70%σ_(c)时,诱发砂岩发生破坏的幅值阈值在17.5%~22.5%σ_(c)范围内,低于阈值的动载作用不会造成砂岩失稳,越过阈值后砂岩强度、破坏前动载持续时间与动载幅值及频率均成负相关。(3)动载幅值与频率对砂岩弱化作用机制存在差异,动载幅值、频率均与动载单次循环平均塑性变形Δε_((i))^(-)成正相关,但Δε_((i))^(-)对动载幅值更为敏感,在阶段Ⅰ、Ⅱ内随幅值增大呈指数型增长。动载幅值主要通过提升塑性变形量来实现对砂岩的弱化作用;而动载频率提升降低了动载循环间隔,在砂岩内部形成小增量、短时、连续的损伤,从而实现对砂岩的弱化作用。(4)砂岩AE信号累计能量与振铃计数率随动载幅值的增大呈指数型变化,也随动载频率的增加同步增长。随着动载幅值增加,砂岩微观裂隙起裂、扩展程度递增,剪切裂纹占比增大;随着动载频率增大,砂岩拉伸裂纹占比增大。 展开更多
关键词 岩石力学 砂岩 循环动载 动态力学响应 渐进损伤
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基于列车群组运行的双线重载铁路群组计划优化研究 被引量:1
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作者 倪少权 龚梓烨 宋宗莹 《铁道科学与工程学报》 北大核心 2025年第6期2479-2492,共14页
列车群组运行控制技术可以有效减小列车间隔、加大行车密度,为解决双线重载铁路运能紧张问题提供了新途径。其中群组计划是列车群组运行模式下铁路运输计划编制的基础,针对多元群组列车与单列混行情况下群组计划优化问题,提出双线重载... 列车群组运行控制技术可以有效减小列车间隔、加大行车密度,为解决双线重载铁路运能紧张问题提供了新途径。其中群组计划是列车群组运行模式下铁路运输计划编制的基础,针对多元群组列车与单列混行情况下群组计划优化问题,提出双线重载铁路多装卸站条件下群组计划的优化方法。首先对列车群组运行技术进行了简要介绍,阐述了群组计划的基本概念及其关键要素,分析了双线重载铁路群组列车在出发、到达、区间运行3种状态下的列车组间追踪过程,以及始发群组列车组群、通发群组列车组群、相同终到站解群和不同终到站解群4种场景下列车在站组群/解群的作业过程,提出了群组计划中各重要参数计算方法。在此基础上,以双线重载铁路全线开行列车数量最大为目标,考虑装车能力、组群/解群作业时间、到发线数量、列车接续等约束,构建群组计划优化模型,并根据模型特点设计了基于改进粒子群优化算法的求解方法。最后,以我国北部某铁路煤运通道为例进行实验,对模型和算法的有效性进行分析,结果表明:在群组运行条件下该线路输送能力提升了32.26%,且能满足各终到站需求。提出的优化方法在解决双线重载铁路群组计划优化问题上具有一定的可行性,能够促进列车群组运行控制技术在重载铁路运输领域的推广应用。 展开更多
关键词 重载铁路 群组运行 双线铁路 群组计划 多装卸站
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冻融循环和循环荷载下裂隙砂岩断裂特性
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作者 刘涛影 崔梦园 +3 位作者 盛业山 董陇军 李地元 林杭 《中国有色金属学报》 北大核心 2025年第7期2538-2560,共23页
在高寒地区矿产开发中,冻融循环与循环荷载的耦合作用易引发岩体冻胀破坏,威胁工程安全。本文采用数字图像技术(DIC)和扫描电子显微镜(SEM)分析裂隙岩体的断裂特征,发现通过SEM研究发现冻融次数增加会加剧水冰相变对颗粒胶结力的弱化,... 在高寒地区矿产开发中,冻融循环与循环荷载的耦合作用易引发岩体冻胀破坏,威胁工程安全。本文采用数字图像技术(DIC)和扫描电子显微镜(SEM)分析裂隙岩体的断裂特征,发现通过SEM研究发现冻融次数增加会加剧水冰相变对颗粒胶结力的弱化,形成蜂窝状松散结构,孔洞和微裂隙增多,最终发展为贯通裂隙。冻融次数升高会促使砂岩裂纹扩展加剧,破坏形态由单斜面剪切转为X状共轭剪切,其中45°倾角砂岩损伤最显著。冻融循环使砂岩起裂强度、K_(Ⅰ)和K_(Ⅱ)线性下降,裂隙倾角对起裂强度的影响呈先降后升的二次函数规律,K_(Ⅰ)随倾角增大呈指数递减,而K_(Ⅱ)不受倾角影响。 展开更多
关键词 冻融循环 循环加卸载 数字图像技术 断裂特征
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循环荷载作用下砂岩损伤演化的声发射与电阻率监测及理论研究
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作者 张胜 柏巍 +4 位作者 徐鼎平 郑虹 江权 李志伟 向天兵 《岩土力学》 北大核心 2025年第S1期53-66,共14页
岩石在循环荷载作用下产生的裂隙会降低其强度,因此研究岩石损伤演化过程具有重要意义。声发射和电阻率监测技术能够通过追踪岩石裂隙的变化来反映其损伤状态,因此可以结合这些参数来表征岩石在循环加卸载状态下的损伤过程。针对不同含... 岩石在循环荷载作用下产生的裂隙会降低其强度,因此研究岩石损伤演化过程具有重要意义。声发射和电阻率监测技术能够通过追踪岩石裂隙的变化来反映其损伤状态,因此可以结合这些参数来表征岩石在循环加卸载状态下的损伤过程。针对不同含水率的砂岩试样,采用声发射和电阻率监测技术对循环荷载作用过程中的岩石损伤进行监测。同时,利用计算机断层成像技术获取破裂后岩石裂隙的分布状态。基于声发射和电阻率参数,建立了损伤变量方程,并推导出单轴循环加卸载作用下的损伤本构方程。研究结果表明,以声发射和电阻率参数构建的损伤变量方程能够有效地反映砂岩在加载与卸载阶段的损伤演化过程。进一步,所提出的损伤本构方程与试验结果拟合较好,证明了该方程在研究循环荷载作用下砂岩的损伤演化规律方面具有实用价值。 展开更多
关键词 砂岩 声发射 电阻率 单轴分级循环加卸载 损伤本构方程
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三轴加卸载下煤岩强度及变形破坏特征 被引量:1
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作者 蒋力帅 李丕茂 +3 位作者 王庆伟 王宗可 李春盎 黄屹峰 《中国煤炭》 北大核心 2025年第1期109-121,共13页
深部煤岩体处于高应力的三向应力状态在掘进与回采等工程扰动影响下,煤岩体的三向应力平衡状态被打破。为研究煤岩体的变形破坏特征与其所处应力状态之间的关系,开展了煤岩体在不同围压下的三轴压缩实验和不同加卸载路径下的三轴加卸载... 深部煤岩体处于高应力的三向应力状态在掘进与回采等工程扰动影响下,煤岩体的三向应力平衡状态被打破。为研究煤岩体的变形破坏特征与其所处应力状态之间的关系,开展了煤岩体在不同围压下的三轴压缩实验和不同加卸载路径下的三轴加卸载实验,借助应力应变曲线、煤样破坏形态素描图及裂隙面分形维数,探究了围压与不同卸载路径对其强度与变形破坏特征的影响。研究结果表明:煤岩三轴压缩强度与围压呈现非线性关系,弹性模量与围压呈现二次函数关系;在卸载条件下,其力学特性和破坏形式与加载条件下有着本质的区别;三轴加卸载下煤岩最大主应力大幅度减小,有明显的扩容现象,表现出明显的脆性破坏;经历卸载过程的煤样,与同等围压下三轴压缩相比,破坏后裂隙面分形维数普遍增大,破碎程度加剧。 展开更多
关键词 三轴加卸载 煤岩体 应力应变 强度特征 破坏特征
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分级卸载路径下的峰前循环扰动深埋花岗岩破坏特性研究
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作者 张胜 徐鼎平 +3 位作者 邱士利 陈世杰 丰光亮 吴小刚 《中南大学学报(自然科学版)》 北大核心 2025年第4期1534-1549,共16页
大型地下厂房围岩在循环扰动后的分层开挖卸荷中,开挖诱发的破坏会对硐室成形和围岩稳定性构成巨大威胁。为揭示叶巴滩水电站地下厂房花岗岩在循环扰动后的分级卸载破坏特性,开展了不同应力路径下的分级卸载试验。基于宏观破裂面形态和... 大型地下厂房围岩在循环扰动后的分层开挖卸荷中,开挖诱发的破坏会对硐室成形和围岩稳定性构成巨大威胁。为揭示叶巴滩水电站地下厂房花岗岩在循环扰动后的分级卸载破坏特性,开展了不同应力路径下的分级卸载试验。基于宏观破裂面形态和断裂面电镜扫描结果,结合Mohr-Coulomb与Hoek-Brown强度准则,从理论角度分析了相同围压下三轴卸载状态下的岩石强度与三轴压缩强度存在差异的原因。研究结果表明:峰前低轴压循环扰动后的岩石分级卸荷破坏表现为脆性破坏,峰前高轴压循环扰动后的岩石分级卸载破坏表现为延性破坏;分级卸载状态下的岩石破裂模式为压-剪破坏,而三轴压缩状态下的岩石破裂模式则为拉-剪破坏;在相同围压下,分级卸载下的岩石强度大于三轴压缩下的岩石强度,且前者的应变能大于后者的应变能;Mohr-Coulomb与Hoek-Brown强度准则均能对卸载状态下的岩石强度结果进行准确拟合。本研究可为高应力地下厂房分层开挖过程中坚硬围岩稳定性分析的力学模型建立和参数选取提供参考。 展开更多
关键词 峰前循环扰动 分级卸载 花岗岩 应变能 强度准则
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干湿循环及循环加卸载条件下白云岩渐进损伤的能量特性研究
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作者 张锋 王运敏 +2 位作者 李小双 鲁俊 侯国庆 《矿冶工程》 北大核心 2025年第4期1-7,共7页
探讨了干湿循环与循环加卸载共同作用下白云岩的力学性能及能量演化规律。结果表明,干湿循环引起的结构损伤导致白云岩由脆性破坏向延性破坏转变,表现为滞回环面积增大与峰值强度下降;循环加卸载初期具有强化作用,随后进入软化与损伤阶... 探讨了干湿循环与循环加卸载共同作用下白云岩的力学性能及能量演化规律。结果表明,干湿循环引起的结构损伤导致白云岩由脆性破坏向延性破坏转变,表现为滞回环面积增大与峰值强度下降;循环加卸载初期具有强化作用,随后进入软化与损伤阶段。能量分析结果显示,总输入能量主要以弹性应变能形式存储,耗散能比例随损伤累积缓慢增长,且由耗散能定义的损伤变量呈现“渐进—加速—稳定”的演化特征。 展开更多
关键词 岩石力学 白云岩 干湿循环 循环加卸载 能量演化 耗能比 损伤变量
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饱和水泥石力学特性及其对水泥环完整性的影响
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作者 郭辛阳 王晨阳 +2 位作者 张一凡 张洋洋 许玉强 《实验技术与管理》 北大核心 2025年第2期81-87,共7页
采用单轴和三轴力学实验研究了饱和水泥石在不同围压和循环载荷下的力学特性及不同弹性模量饱和水泥石在不同围压下的力学特性,分析了其对水泥环完整性的影响。实验结果表明,单轴条件下,饱和水泥石与自然含水水泥石力学特性类似;围压条... 采用单轴和三轴力学实验研究了饱和水泥石在不同围压和循环载荷下的力学特性及不同弹性模量饱和水泥石在不同围压下的力学特性,分析了其对水泥环完整性的影响。实验结果表明,单轴条件下,饱和水泥石与自然含水水泥石力学特性类似;围压条件下,饱和水泥石力学特性与有效应力密切相关,随着有效应力的增大,屈服应力增大,抗压强度增加,残余强度增加,塑性变形能力增强,更不易形成微间隙和微裂缝,更有利于水泥环的完整性;单轴和围压条件下,循环载荷越大,单次循环载荷造成的塑性应变越大,相同循环载荷时围压条件下的塑性应变比单轴条件更大。 展开更多
关键词 饱和水泥石 力学特性 循环载荷 完整性
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Damage evolution in sandstone under uniaxial cyclic loading and varying water contents:Theoretical and experimental investigation
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作者 ZHANG Sheng BAI Wei +3 位作者 XU Ding-ping ZHENG Hong JIANG Quan LI Zhi-wei 《Journal of Central South University》 2025年第8期3095-3110,共16页
During underground excavation,the surrounding rock mass is subjected to complex cyclic stress,significantly impacting its long-term stability,especially under varying water content conditions where this effect is ampl... During underground excavation,the surrounding rock mass is subjected to complex cyclic stress,significantly impacting its long-term stability,especially under varying water content conditions where this effect is amplified.However,research on the mechanical response mechanisms of surrounding rock mass under such conditions remains inadequate.This study utilized acoustic emission(AE)and resistivity testing to monitor rock fracture changes,revealing the rock’s damage state and characterizing the damage evolution process during uniaxial cyclic loading and unloading.First,a damage variable equation was established based on AE and resistivity parameters,leading to the derivation of a corresponding damage constitutive equation.Uniaxial cyclic loading and unloading tests were then conducted on sandstone samples with varying water contents,continuously monitoring AE signals and resistivity,along with computed tomography scans before and after failure.The predictions from the damage constitutive equation were compared with experimental results.This comparison shows that the proposed damage variable equation effectively characterizes the damage evolution of sandstone during loading and unloading,and that the constitutive equation closely fits the experimental data.This study provides a theoretical basis for monitoring and assessing the responses of surrounding rock mass during underground excavation. 展开更多
关键词 sandstone acoustic emission rock resistivity uniaxial cyclic loading and unloading rock cracks damage constitutive equation
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