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Analysis of strength characteristics of loess before and after freezing using a hollow cylinder torsional shear apparatus
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作者 Peng Shen QingZhi Wang +2 位作者 JianHong Fang ChenWei Wang Kui Zhang 《Research in Cold and Arid Regions》 CSCD 2024年第2期63-72,共10页
This paper aims to comprehensively analyze the influence of the principal stress angle rotation and intermediate principal stress on loess's strength and deformation characteristics. A hollow cylinder torsional sh... This paper aims to comprehensively analyze the influence of the principal stress angle rotation and intermediate principal stress on loess's strength and deformation characteristics. A hollow cylinder torsional shear apparatus was utilized to conduct tests on remolded samples under both normal and frozen conditions to investigate the mechanical properties and deformation behavior of loess under complex stress conditions. The results indicate significant differences in the internal changes of soil particles, unfrozen water, and relative positions in soil samples under normal and frozen conditions, leading to noticeable variations in strength and strain development.In frozen state, loess experiences primarily compressive failure with a slow growth of cracks, while at normal temperature, it predominantly exhibits shear failure. With the increase in the principal stress angle, the deformation patterns of the soil samples under different conditions become essentially consistent, gradually transitioning from compression to extension, accompanied by a reduction in axial strength. The gradual increase in the principal stress axis angle(α) reduces the strength of the generalized shear stress and shear strain curves.Under an increasing α, frozen soil exhibits strain-hardening characteristics, with the maximum shear strength occurring at α = 45°. The intermediate principal stress coefficient(b) also significantly impacts the strength of frozen soil, with an increasing b resulting in a gradual decrease in generalized shear stress strength. This study provides a reference for comprehensively exploring the mechanical properties of soil under traffic load and a reliable theoretical basis for the design and maintenance of roadbeds. 展开更多
关键词 LOESS hollow cylinder torsional shear apparatus Major principal stress angle Intermediate principal stress coefficient
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A novel specimen preparation method for TJ-1 lunar soil simulant in hollow cylinder apparatus 被引量:2
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作者 Mingjing Jiang Zhifu Shen +1 位作者 Liqing Li Jiaxing Su 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE 2012年第4期312-325,共14页
Conventional methods for hollow cylinder apparatus (HCA) specimen preparation are not applicable for T J-1 lunar soil simulant due to its wide particle size distribution. A novel method to prepare uniform T J-1 spec... Conventional methods for hollow cylinder apparatus (HCA) specimen preparation are not applicable for T J-1 lunar soil simulant due to its wide particle size distribution. A novel method to prepare uniform T J-1 specimen for HCA tests is put forward. The method is a combination of the multi-layering dry-rodding method and a new under-compaction criterion in the multi-layer with under-compaction method (UCM). In the novel method, the specimen is prepared with 5 layers by dry-rodding and the UCM is used to determine the height after each layer is compacted. The density uniformity of specimen is evaluated by the freezing method to find out the best under-compaction criterion. Two HCA specimens with the same target density are prepared by the novel method and examined in the tests of pure rotation of the principal stresses. Their conformable mechanical behaviors ascertain the effectiveness of the method to produce uniform and reproducible HCA specimens. Four groups of HCA tests are carried out to investigate the anisotropic and non-coaxial behaviors of TJ-I lunar soil simulant. The results indicate that the principal stress direction, the deviator stress ratio, the stress level and the coefficient of the intermediate principal stress significantly influence the strength and deformation properties of T J-1 lunar soil simulant. 展开更多
关键词 specimen preparation hollow cylinder apparatus hca TJ-I lunar soil simulant multi-layering dry-roddingmethod multi-layer with under-compaction method (UCM)
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四向振动空心圆柱扭剪仪模拟主应力轴旋转应力路径能力分析 被引量:15
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作者 周正龙 陈国兴 吴琪 《岩土力学》 EI CAS CSCD 北大核心 2016年第S1期126-132,共7页
主应力轴旋转对土体的动力特性有着显著影响。利用GDS动态空心圆柱扭剪仪(HCA)能够实现内围压、外围压、轴力和扭矩四向动态加载的功能,提出了3种主应力方向变化的应力路径加载方式,分析了3种应力路径在实际工程中的应用,并进行了试验... 主应力轴旋转对土体的动力特性有着显著影响。利用GDS动态空心圆柱扭剪仪(HCA)能够实现内围压、外围压、轴力和扭矩四向动态加载的功能,提出了3种主应力方向变化的应力路径加载方式,分析了3种应力路径在实际工程中的应用,并进行了试验验证。当四向动载根据推导的波形函数加载时,可以实现:1平均主应力p、中主应力系数b和偏应力q保持恒定,主应力轴循环旋转的应力路径;2平均应力p和中主应力系数b保持不变,偏应力q循环变化,而主应力方向角?=90°突变的应力路径;3平均主应力p、中主应力系数b保持不变,偏应力q、主应力方向角α连续变化的应力路径。应力路径1为模拟海洋波浪荷载作用下的应力路径试验提供了理论依据,应力路径2可用于模拟不同方向地震荷载的作用,应力路径3可以模拟波浪荷载作用下桩周土体的应力路径以及交通荷载作用下的应力路径。 展开更多
关键词 主应力轴旋转 空心圆柱扭剪仪 四向动态加载 应力路径
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Undrained monotonic and cyclic behavior of sand-ground rubber mixtures 被引量:2
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作者 Shariatmadari N Karimpour-Fard M Shargh A 《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2018年第3期541-553,共13页
In this study the stress–strain characteristics of sand-ground rubber mixtures are investigated in the sandlike zone,at different confining pressures,using hollow cylinder specimens subjected to torsional monotonic a... In this study the stress–strain characteristics of sand-ground rubber mixtures are investigated in the sandlike zone,at different confining pressures,using hollow cylinder specimens subjected to torsional monotonic and cyclic loading.Under monotonic loading a mixture of sand-ground rubber with 10% and 25% rubber content show more contraction behaviour than that observed in a pure sand specimen.Phase transformation point in these mixtures are located on a larger shear strain.As expected,the shear strength of specimens decreases with increase of ground rubber content.However,with increasing of effective confining pressure,the loss in shear strength of the mixture is decreased.In addition,a mixture with 25% ground rubber shows a smaller loss in shear strength compared to a mixture with 10% ground rubber mixture.Under cyclic loading mixtures with 10% and 25% ground rubber have similar liquefaction resistance,especially at confining pressures of 110 k Pa and 260 k Pa.Therefore,by using of the mixture with 25% ground rubber,a larger volume of scrap tires could be recycled.The addition of ground rubber to sand would affect the shear strain variation and excess pore water pressure trends,and this effect was further intensified with increasing ground rubber percentage. 展开更多
关键词 Ground rubber tire crumbs liquefaction resistance hollow cylinder torsional apparatus monotonic and cyclic behaviour
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Effect of Initial Stress Conditions on the Threshold Shear Strain of Nanjing's Saturated Fine Sand 被引量:4
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作者 Chen Guoxing Pan Hua 《Earthquake Research in China》 2010年第1期128-136,共9页
By using GDS dynamic hollow cylinder torsional apparatus, a series of cyclic torsional triaxial tests under complex initial consolidation condition are performed on Nanjing saturated fine sand. The effects of the init... By using GDS dynamic hollow cylinder torsional apparatus, a series of cyclic torsional triaxial tests under complex initial consolidation condition are performed on Nanjing saturated fine sand. The effects of the initial principal stress direction αo, the initial ratio of deviatoric stress η0, the initial average effective principal stress Po and the initial intermediate principal stress parameter b0 on the threshold shear strain γt of Nanjing saturated fine sand are then systematically investigated. The results show that γt increases as η0,p0 and b0 increase respectively, while the other three parameters remain constant. ao has a great influence on γt, which is reduced when ao increases from 0° to 45°and increased when α0 increases from 45° to 90°. The effect of α0 on γt, plays a leading role and the effect of η0 will weaken when ao is approximately 45°. 展开更多
关键词 Nanjing saturated fine sand Initial stress condition Threshold shear strain hollow cylinder torsional apparatus Cyclic torsional triaxial
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Rock strength weakening subject to principal stress rotation:Experimental and numerical investigations
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作者 Huandui Liu Guibin Wang +2 位作者 Chunhe Yang Junyue Zhang Shiwan Chen 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE 2024年第9期3544-3557,共14页
During the construction and operation of gas storage reservoirs,changes in the principal stress direction can induce fracture propagation under conditions of lower differential stress,potentially leading to failure in... During the construction and operation of gas storage reservoirs,changes in the principal stress direction can induce fracture propagation under conditions of lower differential stress,potentially leading to failure in the surrounding rock.However,the weakening of strength due to pure stress rotation has not yet been investigated.Based on fracture mechanics,an enhanced Mohr-Coulomb strength criterion considering stress rotation is proposed and verified with experimental and numerical simulations.The micro-damage state and the evolution of the rock under the pure stress-rotation condition are analyzed.The findings indicate that differential stress exceeding the crack initiation stress is a prerequisite for stress rotation to promote the development of rock damage.As the differential stress increases,stress rotation is more likely to induce rock damage,leading to a transition from brittle to plastic failure,characterized by wider fractures and a more complex fracture network.Overall,a negative exponential relationship exists between the stress rotation angle required for rock failure and the differential stress.The feasibility of applying the enhanced criterion to practical engineering is discussed using monitoring data obtained from a mine-by tunnel.This study introduces new concepts for understanding the damage evolution of the surrounding rock under complex stress paths and offers a new theoretical basis for predicting the damage of gas storage reservoirs. 展开更多
关键词 Principal stress rotation(PSR) Fracture mechanics hollow cylinder torsional apparatus for rock (hcaR) Particle flow method Rock strength
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