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Experimental Study on Cemented Soil in Sulfate Radical Corrosive solution
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作者 HAN Pengju 《Journal of Civil Engineering and Architecture》 2023年第8期390-394,共5页
The cemented soil is a widely used method to stabilize the weak soil.It would be working in polluted environment,and be influenced by environmental pollution such as acid rain,seawater invasion or industrial pollution... The cemented soil is a widely used method to stabilize the weak soil.It would be working in polluted environment,and be influenced by environmental pollution such as acid rain,seawater invasion or industrial pollution,which may lead to deterioration of the structure.In order to simulate and study the erosion effect process including as the changes of corrosive degree of surface,compression strength of cemented soil samples and SO_(4)^(2-)concentration of corrosive solutions,a series of tests are conducted on the cemented soil blocks cured in different concentrations of MgSO_(4),H_(2)SO_(4)and Na_(2)SO_(4)solutions.The test results show that the corrosive degree of the sample surface increases while the compression strength decreases with the increase of the corrosive solution concentration at the same erosion time,and that the corrosive degree increases with the corrosive time.The influence of inorganic compound solutions on the cemented soil follows the order of Na_(2)SO_(4)>MgSO_(4)>H_(2)SO_(4).By analyzing the mechanism,the corrosive type of H_(2)SO_(4)and MgSO_(4)solutions to cemented soil is a composite type of resolving and crystallizing combination,and Na_(2)SO_(4)solution to cemented soil is a composite type of dissolving and crystallizing combination. 展开更多
关键词 cemented soil compressive strength CORROSION SULFATE
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The Electrical Resistivity Characteristics of Cement-Soil and Flyash-Lime-Soil 被引量:1
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作者 于小军 缪林昌 刘松玉 《Journal of Southeast University(English Edition)》 EI CAS 2001年第1期55-58,共4页
The electrical resistivity characteristics of cement soil and flyash lime soil are investigated in the laboratory and the field. It is shown that the electrical resistivities of the cement soil and flyash lime s... The electrical resistivity characteristics of cement soil and flyash lime soil are investigated in the laboratory and the field. It is shown that the electrical resistivities of the cement soil and flyash lime soil are sensitive to water content, degree of saturation and unconfined strength. The cement soil and flyash lime soil with higher water content, greater degree of saturation, lower unconfined strength has lower electrical resistivity. Electrical resistivity is also correlated with additives. Based on the tests, it is concluded that the electrical resistivity method is available for checking the effectiveness of the soil improvement by the cement soil and flyash lime soil mixing pile in terms of engineering practice. 展开更多
关键词 electrical resistivity cement soil flyash lime soil
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Laboratory Test on Long-Term Deterioration of Cement Soil in Seawater Environment 被引量:8
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作者 杨俊杰 闫楠 +1 位作者 刘强 张玥宸 《Transactions of Tianjin University》 EI CAS 2016年第2期132-138,共7页
Laboratory tests were conducted to study the effects of curing time, cement ratio and seawater pressure on cement soil deterioration formed at simulative marine soft clay sites. Deterioration depth was determined on t... Laboratory tests were conducted to study the effects of curing time, cement ratio and seawater pressure on cement soil deterioration formed at simulative marine soft clay sites. Deterioration depth was determined on the basis of characteristics of penetration resistance and penetration depth curves, and the deterioration depth of cement soil with the cement ratio of 7%, reached 31.8 mm after 720 d. Results of research indicated that deterioration extended quickly under seawater environment and the deterioration depth increased with the prolonging curing time. In addition, the water pressure could speed up deterioration. With the increase of cement content, the strength of cement soil increased obviously. At the same time, the deterioration depth decreased significantly. The concentration of calcium ion in the cement stabilized soil increased with the increase of depth, while that of magnesium ion gradually decreased. The variations were consistent with energy dispersive spectrometer(EDS)analysis results, and the calcium concentration with depth was in a good consistency with strength distribution at long term. The results showed that the deterioration became more serious with the curing time, and it was related to calcium leaching. 展开更多
关键词 cement soil marine clay deterioration depth micro-cone penetration test seawater environment
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Key parameters controlling electrical resistivity and strength of cement treated soils 被引量:15
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作者 章定文 陈蕾 刘松玉 《Journal of Central South University》 SCIE EI CAS 2012年第10期2991-2998,共8页
The improvement of question soils with cement shows great technical, economic and environmental advantages. And interest in introducing electrical resistivity measurement to assess the quality of cement treated soils ... The improvement of question soils with cement shows great technical, economic and environmental advantages. And interest in introducing electrical resistivity measurement to assess the quality of cement treated soils has increased markedly recently due to its economical, non-destructive, and relatively non-invasive advantages. This work aims to quantify the effect of cement content (aw), porosity (nt), and curing time(T) on the electrical resistivity (p) and unconfined compression strength (UCS) of cement treated soil. A series of electrical resistivity tests and UCS tests of cement treated soil specimen after various curing periods were carried out. A modified Archie empirical law was proposed taking into account the effect of cement content and curing period on the electrical resistivity of cement treated soil. The results show that nt/(aw·T) and nt/(aw·T^1/2) ratio are appropriate parameters to assess electrical resistivity and UCS of cement treated soil, respectively. Finally, the relationship between UCS and electrical resistivity was also established. 展开更多
关键词 cement treated soil electrical resistivity unconfined compression strength cement content POROSITY curing time
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Soil-cement mixture properties and design considerations for reinforced excavation 被引量:5
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作者 Jianguo Fan Dongyuan Wang Duo Qian 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2018年第4期791-797,共7页
soil-cement is a mixture produced by grouting or mixing cement with soils. This paper reviews and discusses the general classifications of grouting techniques and the suitability of their applications.The mechanical p... soil-cement is a mixture produced by grouting or mixing cement with soils. This paper reviews and discusses the general classifications of grouting techniques and the suitability of their applications.The mechanical properties of soil-cement mixture and the influence of sodium silicate added are discussed. Design considerations for deep soil mixed wall(DSMW) for excavation support and vault arch for tunnelling stabilisation are presented. Parameters for the numerical analysis of soil-cement mixture are evaluated and recommended. 展开更多
关键词 GROUTING soil-cement mixture Mechanical properties Deep soil mixed wall (DSMW) Vault arch
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The Mechanical Properties of Coastal Soil Treated with Cement 被引量:4
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作者 CHEN Da LIAO Yingdi +1 位作者 JIANG Chaohua FENG Xingguo 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2013年第6期1155-1160,共6页
The influences of cement type, cement content, and curing time on the unconfined compression strength (UCS) of soil-cement were investigated. The influence of groundwater on UCS of soil- cement was also studied. The... The influences of cement type, cement content, and curing time on the unconfined compression strength (UCS) of soil-cement were investigated. The influence of groundwater on UCS of soil- cement was also studied. The experimental results indicate that the soil treated with high grade cement presents a higher UCS. Additionally, the UCS of soil-cement presents linearly increased with the cement content. A logarithm correlation between UCS and curing time presents to forecast the strength development. Compared with the UCS of samples immersed in distilled water, those immersed in groundwater oresent a hizher value. 展开更多
关键词 soil-cement unconfined compression strength cement content curing time
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Studies on parallel seismic testing for integrity of cemented soil columns 被引量:4
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作者 HUANG Da-zhi CHEN Long-zhu 《Journal of Zhejiang University-Science A(Applied Physics & Engineering)》 SCIE EI CAS CSCD 2007年第11期1746-1753,共8页
The principle and process of parallel seismic (PS) testing for the integrity testing of cemented soil columns are in- troduced in this paper. A three-dimensional (3D) finite element model (FEM) for the pile-soil syste... The principle and process of parallel seismic (PS) testing for the integrity testing of cemented soil columns are in- troduced in this paper. A three-dimensional (3D) finite element model (FEM) for the pile-soil system is established for impulse responses. Under saturated soil or unsaturated soil condition, several vibrating velocity-time histories at different depths in parallel hole are obtained based on the numerical simulation. It shows that the length of the pile and the one-dimensional (1D) P-wave velocity in the pile can be determined easily from the features of the mentioned velocity-time histories. By examining the slopes of the first arrival time plotted versus depth or the depth where the amplitude of the first arrival significantly decreases, the length of the pile can be determined. The effects of the 3D P-wave propagation through the saturated soil and the defect of the cemented soil column on the velocity-time histories are also investigated. 展开更多
关键词 Parallel seismic (PS) testing cemented soil columns Integrity testing Numerical simulation
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Improvement of geotechnical properties of sabkha soil utilizing cement kiln dust 被引量:3
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作者 Abdullah A.Al-Homidy Mohammed H.Dahim Ahmed K.Abd El Aal 《Journal of Rock Mechanics and Geotechnical Engineering》 SCIE CSCD 2017年第4期749-760,共12页
Improvement of properties of weak soils in terms of strength,durability and cost is the key from engineering point of view.The weak soils could be stabilized using mechanical and/or chemical methods.Agents added durin... Improvement of properties of weak soils in terms of strength,durability and cost is the key from engineering point of view.The weak soils could be stabilized using mechanical and/or chemical methods.Agents added during chemical stabilization could improve the engineering properties of treated soils.Stabilizers utilized have to satisfy noticeable performance,durability,low price,and can be easily implemented.Since cement kiln dust(CKD) is industrial by-product,it would be a noble task if this waste material could be utilized for stabilization of sabkha soil.This study investigates the feasibility of utilizing CKD for improving the properties of sabkha soil.Soil samples are prepared with 2% cement and 10%,20% or 30% CKD and are tested to determine their unconfined compressive strength(UCS),soaked California bearing ratio(CBR) and durability.Mechanism of stabilization is studied utilizing advanced techniques,such as the scanning electron microscope(SEM),energy dispersive X-ray analysis(EDX),backscattered electron image(BEI) and X-ray diffraction analysis(XRD).It is noted that the sabkha soil mixed with 2% cement and 30% CKD could be used as a sub-base material in rigid pavements.The incorporation of CKD leads to technical and economic benefits. 展开更多
关键词 Sabkha soil Geotechnical properties soil improvement cement kiln dust(CKD) Unconfined compressive strength(UCS) Soaked California bearing ratio(CBR) Durability
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Experimental Study of Dynamic Characteristics on Composite Foundation with CFG Long Pile and Rammed Cement-Soil Short Pile 被引量:4
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作者 Jihui Ding Yanliang Cao +2 位作者 Weiyu Wang Tuo Zhao Junhui Feng 《Open Journal of Civil Engineering》 2014年第1期1-12,共12页
Based on the idea of optimization design of pile type, the two kinds of the typical pile type are selected, which containing flexibility pile (e.g. rammed cement-soil pile is for short RCSP), and rigid pile (e.g. ceme... Based on the idea of optimization design of pile type, the two kinds of the typical pile type are selected, which containing flexibility pile (e.g. rammed cement-soil pile is for short RCSP), and rigid pile (e.g. cement-flyash-gravel pile is for short CFGP). The three kinds of the composite foundation are designed, which are CFGP, CFG long pile and CFG short pile (for short CFGLP-CFGSP), CFG long-short pile and rammed cement-soil short pile (for short CFGLP-RCSSP). Natural earthquake is simulated by using the engineering blasting;the dynamic characteristics and dynamic response of the composite foundation are studied through field test. CFGLP-RCSSP is closed to linear relation. The bearing capacity of the four composite foundation of the CFGP, CFGLP-CFGSP, and CFGLP-RCSSP in the site are 225 kPa, 179 kPa, and 197 kPa, separately increases 150%, 98.8% and 119% compared to the natural foundation. The vibration main frequency is mainly depended on properties of foundation soil and piles between vibration source and measuring point, pilling load value. Horizontal vibration main frequency greater than the vertical vibration main frequency and the vertical vibration main frequency close to the first-order natural frequency of composite foundation. With the pilling load increasing, the CFGLP-RCSSP pile composite foundation combined frequency decreased. Under the same blast energy, the acceleration peak on the CFG pile composite foundation is less than CFGLP-CFGSP the corresponding values, as the load increases, the peak acceleration gently. CFG pile composite foundation is favorable on seismic. The distribution of peak acceleration is consistent within 4 m from pile top in the CFGLP_RCSSP composite foundation. The maximum of the horizontal acceleration peak along the pile body occurs at a distance of pile top 4 m or the pile top, and that of vertical acceleration peak occurred at a pile top. 展开更多
关键词 BLASTING VIBRATION CFG PILE Rammed cement-soil PILE Combined PILE Composite FOUNDATION Dynamic Characteristics
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The compressive strength experimental study of cemented soil under H2SO4 corrosive in earlier period
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作者 HAN Peng-ju BAI Xiao-hong HAO Hai-yan 《Journal of Civil Engineering and Architecture》 2009年第3期54-58,共5页
In order to simulate and study the erosion effect process such as the changes of corrosive depth and unconfined compression strength of cemented soil sample in earlier period from 0 day to 60 days, a series of tests i... In order to simulate and study the erosion effect process such as the changes of corrosive depth and unconfined compression strength of cemented soil sample in earlier period from 0 day to 60 days, a series of tests including unconfined compressive tests, measuring the blocks' sizes, and taking photos, are conducted on the cemented soil blocks which were cured in different concentrations of H2SO4 solutions. The results of tests show that the corrosive depth is increasing and the unconfined compression strength is decreasing with the increase of H2SO4 solution concentration at the same erosion time, and the corrosive degree is increasing with the corrosive time. In the earlier state, the corrosive effect is serious, but the effect becomes slow in the later state in the same concentrated H2SO4 solution. After take statistics the date, a coefficient a is put forward to predict the reduction of the compressive strength of cemented soil in various concentration of H2SO4 solution, which could be used in practical design. 展开更多
关键词 cemented soil corrosive depth unconfined compression strength reduced coefficient
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Experimental research on variation of porosity in destruction process of cement stabilized soil
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作者 ZHANG Jun CHEN Hui'e CHEN Zongfang YAN Huan SHI Mingyuan CAI Chengqiu 《Global Geology》 2012年第3期216-220,共5页
Based on the process of reinforcing soft soil using cement in laboratory, the porosity of test samples under different pressures conditions were determined through mercury intrusion porosimetry. The experiment was int... Based on the process of reinforcing soft soil using cement in laboratory, the porosity of test samples under different pressures conditions were determined through mercury intrusion porosimetry. The experiment was introduced and the law of porosity variation was summarized. The results show that when stress is between 0 and 0.15--0.2 qu, porosity decreases along with the pressure, then porosity has increased in the wake of the pressure until the sample damaged. It can provide an experimental basis for exploring the failure mechanism of cement stabilized soil from the microscopic view and the study to establish the microcosmic constitutive model of cement stabilized soil. 展开更多
关键词 cemented soil mercury intrusion porosimetry POROSITY
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Effects of Soil-Cement Stabilization on the Index Properties of Subgrades of Three Selected Roads in the Niger Delta Region of Nigeria
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作者 Jonathan O. Irokwe Ify L. Nwaogazie Samuel Sule 《Open Journal of Civil Engineering》 CAS 2022年第4期630-647,共18页
In this study, the impact of soil-cement stabilization on the index properties of the subgrade of roads was investigated. Efforts were on the means of improving the bearing capacity of the subgrade of a flexible pavem... In this study, the impact of soil-cement stabilization on the index properties of the subgrade of roads was investigated. Efforts were on the means of improving the bearing capacity of the subgrade of a flexible pavement structure. Three selected roads (Ogbia-Nembe, section of the East-West Road and section of Port Harcourt-Aba Road) in the Niger Delta Region of Nigeria were examined to determine the effect of sand-cement stabilization on the compaction index property of their undisturbed subgrade and the optimal ratio of soil-cement on the expansive soils at which the California Bearing Ratio (CBR) is optimized. Disturbed soil samples were collected from twenty trial pits on each of the three study roads using a hand ulger and tested for their respective compaction index properties. It was discovered that their California Bearing Ratio (CBR) was very low. Some of the collected specimen materials were stabilized with varying percentages of soil-cement contents ranging from 6% - 14% in order to ascertain its effects on the compaction index properties of the sample soils. Results of the various stabilization test procedures show that: Stabilization of the soil using Soil-Cement Stabilization affected the Compaction Index properties of the soil and further improved the California Bearing Ratio (CBR). On the Ogbia-Nembe Road;Soil-Cement stabilization improved the CBR and is optimized at a 10% sand-cement ratio with optimum moisture content ranging from 6.2% - 14%, maximum dry density ranges from 1700 - 1780 kg/m<sup>3</sup>, yielding an average CBR of 42.7% for soaked samples. On the section of East-West Road from Eleme Junction to Etteh Junction;Soil-Cement stabilization improved the CBR and is optimized at a 14% sand-cement ratio with optimum moisture content ranging from 6.2% - 14.2%, maximum dry density ranges from 1660 - 1800 kg/m<sup>3</sup>, yielding an average CBR of 43.9% for soaked samples. On the section of Port Harcourt-Aba Express Road from Eleme Junction to Osisioma Junction;Soil-Cement stabilization improved the CBR and is optimized at a 12% sand-cement ratio having an optimum moisture content ranging from 5.4% - 17.3%, maximum dry density ranges from 1610 - 1740 kg/m<sup>3</sup>, and an average California Bearing Ratio for soaked samples at 40%. 展开更多
关键词 soil-cement Stabilization Expansive soils Maximum Dry Density Disturbed soil Samples Index Properties Optimum Moisture Content
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Study of elastic-plastic damage model of cement consolidated soil with high organic content
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作者 CHEN Huie WANG Qing CAI Keyi 《Global Geology》 2009年第1期17-21,共5页
On the basis of elastic-plastic damage model of cement consolidated soil,the authors took organic contents into reasonable damage variable evolution equation in order to seek relation between the organic contents and ... On the basis of elastic-plastic damage model of cement consolidated soil,the authors took organic contents into reasonable damage variable evolution equation in order to seek relation between the organic contents and parameters in the equation,and established the elastic-plastic damage model of cement consolidated soil considering organic contents.The results show that the parameters change correspondingly with difference of the organic contents.The higher the organic contents are,the less the valves of the parameters such as elastic modulus(E),material parameters(K,n) and damage evolution parameter(ε) become,but the larger strain damage threshold value(εd) of the sample is.Meanwhile,the calculation results obtained from established model are compared with the test data in the condition of common indoors test,which is testified with reliability. 展开更多
关键词 cement consolidated soil organic content elastic-plastic damage model
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Characterization of frozen soil-cement mixture for berm construction in cold regions 被引量:1
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作者 HaoLin Yu XinLei Na ZhaoHui Joey Yang 《Research in Cold and Arid Regions》 CSCD 2015年第4期300-306,共7页
Lagoon berms in western Alaska are difficult to design and build due to limited resources, high cost of construction and materials, and warm permafrost conditions. This paper explores methods to treat locally availabl... Lagoon berms in western Alaska are difficult to design and build due to limited resources, high cost of construction and materials, and warm permafrost conditions. This paper explores methods to treat locally available frozen materials and use them for berm construction. The goal is to find an optimized mix ratio for cement and additives that can be effective in increasing the strength and decreasing the thaw settlement of an ice-rich frozen silty soil. Soil of similar type and ice content to the permafrost found at a project site in Eek, Alaska is prepared in a cold room. The frozen soil is pulverized and cement, additives and fibers are added to the samples for enhancing shear strength and controlling thaw settlement. Thaw settlement and direct shear tests are performed to assess strength and settlement characteristics. This paper presents a sample preparation method, data from thaw settlement and direct shear tests, and analyses of the test results and preliminary conclusions. 展开更多
关键词 frozen soil stabilization thaw settlement shear strength Portland cement
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The Stabilizing Granular Soil with Slow-setting and Slight-expansive Cement
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作者 周明凯 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2002年第4期61-63,共3页
According to the characteristics of granular soil,the technological requirements of the special-purpose cement for stabilizing granular soil are put forward to meet the demands of implementation of highway base engine... According to the characteristics of granular soil,the technological requirements of the special-purpose cement for stabilizing granular soil are put forward to meet the demands of implementation of highway base engineering.A kind of slow-setting and slight-expansive cement is developed by the cross experiment method in slag-clinker-gypsum-alkaline system,the final setting time of the cement can be prolonged to 8h,and it has properties of low dry shrinkage,high flexural strength and good crack resistance.The strength of granular soil stabilized by the cement is increased by 20% compared with that stabilized by Chinese 425-Grade slag cement. 展开更多
关键词 cement-stabilized soil SLAG setting time slight-expansion highway base
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Numerical computation of anti-liquefaction effect of lattice-type cement-mixed soil countermeasure
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作者 高玉峰 杨雪玲 +1 位作者 沈扬 周源 《Journal of Central South University》 SCIE EI CAS 2008年第S2期155-160,共6页
Continuous soil-cement wall confinement method to resist liquefaction is a new kind of process. However, whether it also has a good effect on anti-liquefaction or not needs to be urgently answered for earthquake engin... Continuous soil-cement wall confinement method to resist liquefaction is a new kind of process. However, whether it also has a good effect on anti-liquefaction or not needs to be urgently answered for earthquake engineering. Quiet boundary is adopted on the lateral face while free field boundary is employed at the bottom. Byrne model on dynamic pore water pressure generation is accepted and natural seismic wave EI Centro whose peak acceleration is adjusted to 0.2 g in proportion is used for input. A double-layer foundation with sandy soil in the upper portion while clay soil in the lower part is chosen as the calculation model, which is 30 m in length and 20 m in width. The groundwater level is on the ground surface. Excess pore water pressure rate is considered as a liquefaction index in the three-dimensional non-linear earthquake response computation. The anti-liquefaction effectiveness and its influencing factors, such as confinement element area are studied. For the natural double-layer foundation, it is liquefied when the excess pore water pressure rate reaches 1.0 under the seismic load. Under the same earthquake load, the peak excess pore water pressure reduces to 0.56 after adopting reinforcement of the continuous soil-cement wall, which is 46% lower than before. It indicates that continuous soil-cement wall confinement method can attain the purpose of anti-liquefaction. Accordingly, it can be a sort of engineering measure to carry on the anti-liquefaction foundation treatment. 展开更多
关键词 lattice-type cement-mixed soil COUNTERMEASURE ANTI-LIQUEFACTION EXCESS pore pressure ratio the smallest LATTICE area
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The Contribution of the GIS and the Principal Component Analysis in the Study of the Cement’s Dusts Impact on the Top Soils in the Central Part of the Oujda-Taourirt Corridor (Eastern Morocco)
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作者 Mohamed El Kharmouz Mohamed Sbaa Sanae Saadi 《Open Journal of Air Pollution》 2013年第4期100-106,共7页
Cement dust pollution is one of the sources of atmospheric pollution. The main impacts of the cement activity to the environment are the broadcasts of dusts and gases. The objective of this study is to determine the e... Cement dust pollution is one of the sources of atmospheric pollution. The main impacts of the cement activity to the environment are the broadcasts of dusts and gases. The objective of this study is to determine the effects of cement dust pollution on physico-chemical characteristics of the soil at the vicinity of the cement factory in Oujda-Taourirt corridor (Eastern Morocco) using Principal component analysis (PCA) and geographical information system (GIS). Forty one (41) surface soils (0 - 3 cm) were collected from the six rural townships surrounding the cement factory. The collected soil samples were analyzed for their chemical properties (CaO, Al2O3, Fe2O3, K2O, MgO, SO3 and SiO2) as well as their pH and Electric Conductivity. The results of the analysis showed that the dusts emitted by the cement plant are especially basic and contain a high free lime (43.03% CaO). The principal component analysis applied on the 41 superficial soil samples, allows deducting that the free lime and the sulfur oxide are the tracer elements of this form of pollution. Furthermore, the spatial projection of the factor scores of the principal component analysis using the geographical information system permits us to determine the spatial distribution of more polluted areas of soils as well as to estimate their impact at a zone of 2.5 km of beam around the factory. 展开更多
关键词 cement DUST soil Spatial Distribution PHYSICO-CHEMICAL Analysis PCA
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糯米浆灰土无侧限压缩和三轴剪切离散元分析 被引量:2
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作者 李涛 薛锦 +2 位作者 杨立靖 李家乐 杨襟铭 《科学技术与工程》 北大核心 2024年第10期4215-4221,共7页
糯米浆灰土是一种常见的遗址保护建筑材料,为研究糯米浆灰土压缩加载过程中的糯米-石灰胶结破坏和接触组构演化情况,采用离散单元法开展了糯米浆灰土无侧限压缩和三轴剪切离散元模拟。首先基于软胶结模型考虑糯米浆-石灰的强度特征,制... 糯米浆灰土是一种常见的遗址保护建筑材料,为研究糯米浆灰土压缩加载过程中的糯米-石灰胶结破坏和接触组构演化情况,采用离散单元法开展了糯米浆灰土无侧限压缩和三轴剪切离散元模拟。首先基于软胶结模型考虑糯米浆-石灰的强度特征,制备了糯米浆灰土离散元试样;然后通过参数敏感性分析为试样赋予合理的接触模型等效模量和胶结强度参数,最后对试样开展无侧限和三轴压缩模拟。结果表明:离散元模拟能再现糯米浆灰土加载试验的主要特征;加载过程中胶结破坏数量先缓后快增加,最终趋于平缓,胶结破坏呈现一定的聚集效应;无侧限压缩下胶结接触主要发生拉伸破坏,随着围压增加,剪切破坏接触数量增加;试样偏组构快速增加段为胶结破坏诱发。 展开更多
关键词 糯米浆灰土 胶结颗粒力学 离散单元法 无侧限压缩试验 三轴试验
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强震损伤格栅墙处理地基抗液化性能离心模型试验研究
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作者 周燕国 曹渊 +1 位作者 石川明 陈云敏 《岩土工程学报》 EI CAS CSCD 北大核心 2024年第S01期11-15,共5页
水泥土格栅墙能有效减缓被围束土体在地震作用下的剪切荷载及变形,已广泛应用为一种高效的抗液化对策。针对其长期服役过程,开展了两组超重力离心模型试验以研究强振历史对水泥土格栅墙内被围束土体液化响应的影响。两组模型均由15 m厚... 水泥土格栅墙能有效减缓被围束土体在地震作用下的剪切荷载及变形,已广泛应用为一种高效的抗液化对策。针对其长期服役过程,开展了两组超重力离心模型试验以研究强振历史对水泥土格栅墙内被围束土体液化响应的影响。两组模型均由15 m厚的易液化含黏粒砂土和2.5 m厚的粗砂层组成。其中,一组模型采用水泥土格栅墙对易液化层进行加固;另一组模型则未进行处理,作为自由场地对照组。两组模型均经历振幅为0.15g的振动事件,且在0.15g振动事件前,对两组模型施加振幅为0.4g的振动事件作为强振历史。试验结果表明,格栅墙在强振下主要的损伤模式表现为竖向贯穿型裂缝,并部分伴随有局部斜向裂缝,且外侧格室对于中心格室表现出类似于群桩基础的“遮蔽效应”。强振历史后,格栅墙中心格室内被围束土体的超静孔压显著低于自由场地,损伤后格栅墙仍具有良好的抗液化效果。同时,格栅墙由于强振后整体刚度的削弱,其与下卧粗砂层间的剪切变形显著减小。 展开更多
关键词 地震液化 水泥土格栅墙 地基处理 离心机模型试验 地震历史
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干湿循环作用下融雪剂对玻璃纤维水泥土力学性能影响的试验研究 被引量:1
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作者 徐丽娜 刘启龙 +1 位作者 牛雷 孙爽 《建筑结构》 北大核心 2024年第1期133-137,共5页
为研究在干湿循环作用下不同种类融雪剂对玻璃纤维水泥土力学性能的影响,制备浓度为0.2mol/L的醋酸钾、氯化镁和硫酸钠溶液作为融雪剂溶液,将养护后的无纤维水泥土和有纤维水泥土试块在不同种类的融雪剂溶液中浸泡3d,然后将试块取出放... 为研究在干湿循环作用下不同种类融雪剂对玻璃纤维水泥土力学性能的影响,制备浓度为0.2mol/L的醋酸钾、氯化镁和硫酸钠溶液作为融雪剂溶液,将养护后的无纤维水泥土和有纤维水泥土试块在不同种类的融雪剂溶液中浸泡3d,然后将试块取出放入烘干箱内分别进行8~10次干湿循环。进而分析融雪剂类型、干湿循环次数对试块表面破坏状态、强度和质量等的影响。试验结果表明:经过10次干湿循环后,醋酸钾融雪剂溶液对试块质量和强度的影响程度小于氯化镁溶液和硫酸钠溶液,说明醋酸钾融雪剂对水泥土侵蚀作用较小;试块表面裂纹随着干湿循环次数的增加逐渐增多加深,在经历相同干湿循环次数后,有纤维水泥土试块的裂纹发展程度、质量损失率和强度损失率均低于无纤维水泥土试块,说明通过添加玻璃纤维可有效提高水泥土抗干湿循环和融雪剂侵蚀的能力。 展开更多
关键词 融雪剂 玻璃纤维 水泥土 干湿循环 无侧限抗压强度
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