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1.
钙质砂广泛分布于热带海岸地区,其抗剪强度较低,在较高应力条件下极易破碎。因此,对以钙质砂为主要原料的地基材料进行加固,是海洋岩土工程领域的研究热点。基于尿素水解过程的碳酸钙成矿技术(MICP)是近年来地基材料加固领域的一项新技术。目前广泛使用的生物强化法实现MICP存在成本昂贵及环境适应性差等问题,制约了其大规模工程应用。研究采用原位生物激发MICP法对钙质砂进行加固,并对加固后试样开展直剪和一维压缩试验。结果表明:原位生物激发MICP方法可以在钙质砂中形成有效胶结,胶结水平最大可达6.26%。采用高浓度胶结溶液或增加注射次数可提高胶结水平。同时,加固后钙质砂的最大应力比、最大剪胀角以及残余内摩擦角均随胶结水平增加而显著增大,但竖向应力水平增大会抑制这些力学指标的增大。随胶结水平升高,试样压缩性显著减小;压缩后的原位激发MICP加固钙质砂中,细颗粒与粗颗粒的比例均随胶结水平的增加而增大。 相似文献
2.
微生物固化技术(MICP)是岩土工程领域新兴起的一种不良地基处理技术,不同地基土体之间的颗粒粒径并不相同,其固化效果也可能存在一定差别。选用3种不同颗粒粒径范围的砂土进行微生物固化处理,并基于无侧限抗压强度试验、孔隙体积测量和洗酸处理,从宏观角度分析颗粒粒径对微生物固化效果的影响。结合扫描电镜测试,从细观角度对微生物固化机制进行了初探。研究结果表明,微生物固化砂土中碳酸钙晶体以颗粒簇形式堆积在砂土颗粒表面及颗粒间接触处,其尺寸随碳酸钙晶体堆叠程度的增加而增大;对于颗粒粒径较小的砂土,颗粒间孔隙较易被碳酸钙晶体填充密实,固化试样内有效碳酸钙晶体比例较大,“结构性”较强,无侧限抗压强度较高。 相似文献
3.
为了提升微生物固化砂土的效果,考虑火山灰的多孔结构及活性特征,设计进行了火山灰增强微生物诱导碳酸钙沉淀(MICP)固化砂土试验,综合宏观物理力学试验和微细观检测,系统分析了火山灰对微生物固化砂土的增强效果及增强机制。结果表明:(1)火山灰能够显著提高砂土微生物加固过程中的固菌率和胶结物产量,火山灰掺量在10%左右达到最佳,与常规MICP相比,固菌率提高了118.28%,胶结物生成量提高了29.55%。(2)火山灰的掺入提高了固化体的抗压强度和抵抗变形的能力,不同围压下固化体的抗压强度提升了52.26%~62.96%,破坏时的应变增加了100.00%~112.58%。(3)火山灰掺入后,固化体的孔隙大小及孔隙率明显减小,整体的密实性及抗渗性能进一步提升,孔隙率从20.12%减小为14.17%,渗透系数降低了一个数量级。(4)火山灰对微生物固化砂土的增强机制主要包括3个方面,一方面,火山灰在砂颗粒间起到了良好的充填作用,大幅减少了颗粒间的大孔隙,使得固化体的密实性增强;另一方面,火山灰良好的吸附作用有效提高了试样内细菌的含量,使固化体碳酸钙的产量及分布的均匀性均增加;第3方面,火山灰中的活性物质参与反应生成的胶凝物质与碳酸钙晶体形成复合凝胶体,使得固化体的胶结性能和密实程度进一步增强。 相似文献
4.
微生物固化(microbial-induced calcite precipitation, 简称为MICP)技术是岩土工程领域新兴起的一种地基处理技术,利用微生物诱导产生的碳酸钙晶体胶结松散土颗粒,改善土体的力学特性。选用巴氏芽孢杆菌作为固化细菌,采用单一浓度(0.5、1.0 mol)和多浓度相结合(前期采用0.5 mol,后期采用1.0 mol)的化学处理方式注射胶结液(尿素/氯化钙混合液),研究化学处理方式对微生物固化砂土强度的影响。基于试验测试分析了固化砂土试样的强度、破坏模式以及碳酸钙含量。试验结果表明,化学处理方式对固化砂土试样的强度有显著影响,对破坏模式和碳酸钙含量无明显影响;多浓度相结合的化学处理方式能够以较少的灌浆次数获取较高强度的试样。最后,对化学处理方式对强度影响的机制进行深入分析。 相似文献
5.
This paper presents a theoretical approach to evaluate the uncertainties and the correlation of the shear strength parameters c and t (cohesion and friction coefficient), obtained in direct shear tests. The analysis is based on the hypothesis that the soil is statistically homogeneous, with shear strength normally distributed having an expected resistance which is linearly dependent on the effective normal stress. With regard to the scatters of the population of the shear strength, two further statements have been formulated for the standard deviation: (1) a constant value, independent of the effective normal stresses and (2) a value which is linearly dependent on the normal effective stresses as a consequence of a constant coefficient of variation. The investigation shows that the strength parameters are negatively correlated and the coefficient of correlation and the coefficients of variation of cohesion and friction angle are highly dependent on the number of shear tests and the normal stresses used in the tests. 相似文献
6.
Calcareous sand, a special type of sand commonly used for the construction of coastal engineering in tropical coasts, is usually required to be strengthened due to its poor engineering mechanical properties. Microbially induced carbonate precipitation has been proved to be a promising method for this purpose. A higher cementation level generally leads to a greater strength enhancement, but tends to cause brittle failure of bio-cemented calcareous sand, which in turn brings great potential risks for the coastal engineering. Therefore, the shear behaviour, especially the brittle behaviour, of bio-cemented calcareous sand needs to be understood properly, and taking some measures to improve its brittle behaviour is also necessary. In this regard, a series of triaxial compression tests were conducted to study the shear behaviour of bio-cemented calcareous sand with various cementation levels, and the waste rubber particles are used to improve the brittle behaviour of bio-cemented calcareous sand. The test results show that the shear strength of bio-cemented calcareous sand increases with the increase in cementation level, and the brittle behaviour is significant gradually. The waste rubber particles contribute to improve the brittle behaviour of bio-cemented calcareous sand, reducing the dilation of bio-cemented calcareous sand and slowing the changes in dilatancy with the increment of stress. 相似文献
7.
采用2次注入菌液方式,制备不同浓度营养盐处理的微生物诱导碳酸钙沉淀(MICP)胶结砂样。通过固结排水三轴试验和碳酸钙定量化学试验测定试样强度参数及碳酸钙(CaCO3)含量,分析了营养盐浓度对胶结砂物理力学特性的影响及碳酸钙沉淀量试样强度指标间的关系。结果表明,同等反应时间、同等体积营养盐溶液条件下,随着营养盐浓度的提高试样强度逐渐升高,且达到一定峰值后再下降;碳酸钙晶体分布形态较好条件下,变形模量随着试样干密度的增加而增加;碳酸钙晶体分布形态和沉淀含量共同影响MICP试样强度的提高,试验中0.5 M试样强度提高效果最好,碳酸钙含量、黏聚力、内摩擦角分别为6.03%、46.9 kPa和41.31°。 相似文献
8.
A micromechanics-based approach is proposed to predict the shear failure of brittle rocks under compression. Formulation of this approach is based on an improved wing microcrack model, the Mohr-Coulomb failure criterion, and a micro-macro damage model. The improved wing microcrack model considers the effects of crack inclination angle on mechanical behaviors of rocks. The micro-macro damage model describes the relation between crack growth and axial strain. Furthermore, comparing experimental and theoretical relations between crack initiation stress and confining pressure, model parameters (i.e., μ, a, β, and φ) hardly measured by test are solved. Effects of crack inclination angle, crack size, and friction coefficient on stress-strain relation, compressive strength, internal friction angle, cohesion, shear failure plane angle, and shear strength are discussed in details. A most disadvantaged crack angle is found, which is corresponding to the smallest compressive strength, cohesion, internal friction angle, and shear strength of rocks. Rationality of the theoretical results is verified by the published experimental results. This approach provides a theoretical prediction for effects of microcrack geometry on macroscopic shear properties in brittle rocks under compression. 相似文献
9.
Microbially induced calcium carbonate (CaCO3) precipitation (MICP) has been extensively studied for soil improvement in geotechnical engineering. The quantity and size of calcium carbonate crystals affect the strength of MICP-treated soil. In this study, microfluidic chip experiments and soil column experiments were conducted to optimize MICP treatment protocols for effective strength enhancement of MICP-treated sandy soils. The microscale experiments reveal that, due to Ostwald ripening, longer injection intervals allow crystals to dissolve and reprecipitate into larger crystals regardless of the concentration of cementation solution. Even though a cementation solution input rate of 0.042 mol/l/h is sufficient to maintain a high chemical transformation efficiency, a further reduction in the input rate by about four times resulted in an increase in the size of crystals produced by the end of treatment from about 40 to 60 μm. These findings were applied in soil column experiments. Results showed that significantly larger crystals and higher soil strength were achieved when the normalized rate of cementation solution injection was reduced from 0.042 to 0.021 mol/l/h. Crystal size and soil strength increased slightly more when the normalized input rate was further reduced from 0.021 to 0.010 mol/l/h. This study demonstrates how data from microscale microfluidic experiments that examine the effects of injection intervals and concentration of cementation solution on the properties of calcium carbonate crystals can be used to optimize MICP treatment in macroscale sand soil column experiments for effective strength enhancement. 相似文献
10.
The use of biopolymer to improve the performance of microbially induced carbonate precipitation (MICP)-treated sands is a novel and eco-friendly concept. This work found an anionic biopolymer, γ-polyglutamate (γ-PGA), could significantly improve the performance of MICP-treated sands. Comparing the control with absence of γ-PGA, the concentration of 0.1–9 g/L γ-PGA increased the compressive strength of MICP-treated sands by 1.54–3.96 times and significantly reduced the brittleness. The MICP process analysis and microstructural detection demonstrated that γ-PGA in the specimens provided many nucleation sites and templates for calcite generation, partially kept the bacterial urease activity by replacement of the bacteria as nucleation sites, thereby improving the calcite generation. The γ-PGA also cemented sand grains with calcite through the hydrogen bond-type intermolecular interactions. Both the calcite generation and the hydrogen bond-type intermolecular interactions by γ-PGA played vital roles in enhancing MICP for soil improvement. Additionally, γ-PGA, as a viscoelastic admixture between the crystals and sand grains, effectively dissipated the energy of stress and thus reduced the brittleness of MICP-treated sands. This is the first report on the application of anionic biopolymer to MICP technology. It provides a novel concept in promoting the efficiency and sustainability of MICP. 相似文献
11.
The pre-bored grouted planted pile is a new type of composite pile foundation that consists of a precast concrete pile and the surrounding cemented soil. A series of shear tests were conducted in a specific shear test apparatus to investigate the shaft capacity of the different pile–soil interfaces. The test results show that the frictional capacity of the cemented soil–sand interface is controlled mainly by the sand properties, while the strength of the cemented soil slightly influences the interface properties by affecting the normalized roughness coefficient Rn. The frictional capacity of the concrete–sand interface is similar to the frictional capacity of the cemented soil–sand interface, and the existence of mud cake layer virtually hampers the frictional properties of the interface. The maximum skin friction of the concrete–cemented soil interface increases approximately linearly with the increasing cemented soil strength, and the value of the maximum skin friction is much larger than that of the cemented soil–sand interface of identical cemented soil strength, which demonstrates the integrity of the pre-bored grouted planted pile in the load transfer process. 相似文献
12.
Since cross-anisotropic sand behaves differently when the loading direction or the stress state changes, the influences of the loading direction and the intermediate principal stress ratio ( b = ( σ 2 ? σ 3)/( σ 1 ? σ 3)) on the initiation of strain localization need study. According to the loading angle (angle between the major principal stress direction and the normal of bedding plane), a 3D non-coaxial non-associated elasto-plasticity hardening model was proposed by modifying Lode angle formulation of the Mohr–Coulomb yield function and the stress–dilatancy function. By using bifurcation analysis, the model was used to predict the initiation of strain localization under plane strain and true triaxial conditions. The predictions of the plane strain tests show that the major principal strain at the bifurcation points increases with the loading angle, while the stress ratio decreases with the loading angle. According to the loading angle and the intermediate principal stress ratio, the true triaxial tests were analyzed in three sectors. The stress–strain behavior and the volumetric strain in each sector can be well captured by the proposed model. Strain localization occurs in most b value conditions in all three sectors except for those which are close to triaxial compression condition ( b = 0). The difference between the peak shear strength corresponding to the strain localization and the ultimate shear strength corresponding to plastic limit becomes obvious when the b value is near 0.4. The influence of bifurcation on the shear strength becomes weak when the loading direction changes from perpendicular to the bedding plane to parallel. The bifurcation analysis based on the proposed model gives out major principal strain and peak shear strength at the initiation of strain localization; the given results are consistent with experiments. 相似文献
13.
微生物诱导碳酸钙沉积(MICP)作用是一种新型的土体改良技术。钙源作为MICP反应中重要的反应物,对微生物诱导碳酸钙沉积的效果有重要的影响。目前应用最广泛的钙源——氯化钙(CaCl2),具有成本高,环境污染性大的缺点。为此,文章提出利用石灰石粉提取钙源,通过在石灰石粉中加入乙酸溶液,释放钙离子用于微生物固化土体。通过开展无侧限抗压强度试验以及微观结构的扫描电镜观测、碳酸钙含量测定等分析,验证利用石灰石粉提取的钙源用于微生物诱导碳酸钙沉积作用固化土体的可行性,同时与醋酸钙和氯化钙固化砂柱进行了对比分析。研究结果表明:(1)石灰石粉用于微生物固化土体具有可行性,固化后砂柱的强度和碳酸钙含量较高,结构完整性高;(2)不同钙源固化砂柱的力学特性不同但均呈典型的脆性破坏模式,其中醋酸钙固化砂柱的无侧限抗压强度略高于石灰石钙源固化砂柱,氯化钙固化砂柱的无侧限抗压强度则远低于前两者且表面更加粗糙,孔隙更多,破坏后的完整性更低;(3)不同钙源固化砂柱的碳酸钙含量不同。醋酸钙和石灰石钙源固化砂柱的碳酸钙含量相近,而氯化钙固化砂柱中碳酸钙含量较低。不同钙源固化砂柱的碳酸钙含量和无侧限抗压强度基本呈正相关关系;(4)醋酸钙和石灰石钙源固化砂柱中砂土颗粒的表面和接触点间均沉积大量碳酸钙,碳酸钙晶体主要为薄片状堆叠的方解石。氯化钙固化砂柱中碳酸钙沉积量低于前两者,碳酸钙晶体主要为六面体状的方解石;(5)不同钙源主要通过影响微生物成矿过程的晶型、晶貌、晶体含量、晶体分布及胶结特征来改变固化效果。 相似文献
14.
The objective of this study was to evaluate the effect of mine tailings composition on shear behavior and shear strength of co-mixed mine waste rock and tailings (WR&T). Crushed gravel was used as a synthetic waste rock and mixed with four types of tailings: (1) fine-grained garnet, (2) coarse-grained garnet, (3) copper, and (4) soda ash. Co-mixed WR&T specimens were prepared to target mixture ratios of mass of waste rock to mass of tailings ( R) such that tailings “just filled” interparticle void space of the waste rock (i.e., optimum mixture ratio, R opt). Triaxial compression tests were conducted on waste rock, tailings, and mixed waste at effective confining stresses ( \(\sigma_{\text{c}}^{{\prime }}\)) ranging from 5 to 40 kPa to represent stresses anticipated in final earthen covers for waste containment facilities. Waste rock and co-mixed WR&T specimens were 150 mm in diameter by 300 mm tall, whereas tailings specimens were 38 mm in diameter by 76 mm tall. Shear strength was quantified using effective stress friction angles ( ?′) from undrained tests: ?′ for waste rock was 37°, ?′ for tailings ranged from 34° to 41°, and ?′ for WR&T mixtures ranged from 38° to 40°. Thus, shear strength of co-mixed WR&T was comparable to waste rock regardless of tailings composition. Shear behavior of WR&T mixtures was a function of R and tailings composition. Tailings influenced shear behavior for R < R opt and when tailings predominantly were silt. Shear behavior was influenced by waste rock for R ≥ R opt and when tailings predominantly were sand or included clay particles. 相似文献
15.
Circular failure is generally observed in the slope of soil, highly jointed rock mass, mine dump and weak rock. Accurate estimation of the safety factor (SF) of slopes and their performance is not an easy task. In this research, based on rock engineering systems (RES), a new approach for the estimation of the SF is presented. The introduced model involves six effective parameters on SF [unit weight ( γ), pore pressure ratio ( r u), height ( H), angle of internal friction ( φ), cohesion ( C) and slope angle ( \(\beta\))], while retaining simplicity as well. In the case of SF prediction, all the datasets were divided randomly to training and testing datasets for proposing the RES model. For comparison purposes, nonlinear multiple regression models were also employed for estimating SF. The performances of the proposed predictive models were examined according to two performance indices, i.e., coefficient of determination ( R 2) and mean square error. The obtained results of this study indicated that the RES is a reliable method to predict SF with a higher degree of accuracy in comparison with nonlinear multiple regression models. 相似文献
16.
Microbial-induced calcium carbonate precipitation (MICP) is a sustainable technique to transform or improve physical and mechanical properties of soils. This paper aims to study the effect of activated carbon (AC) on the property of bio-treated China Standard sand. Six sample groups were prepared considering various dosages of cementation solutions and bacterial suspensions. In each group, samples were prepared at six different AC ratios (0%, 0.2%, 0.5%, 1%, 2%, and 3% by weight of sand). Bacterial retention ability, calcium carbonate mass, unconfined compression strength (UCS), and microstructures of bio-treated samples were examined and evaluated in the presence of AC. It was found that the improved yield of calcium carbonate crystals and increased UCS were correlated to the enhanced bacterial retention ability attributed to AC. In addition, the test results showed that the amount of cementation solution played an important role in the MICP process, but volume variation of the bacterial suspension had a little effect on the bio-treated samples. 相似文献
17.
Based on a laboratory study of drained direct shear tests of remoulded, pre-cut and polished specimens and drained ring shear tests of uncut and remoulded specimens of slip surface materials of five landslide soils, significant correlations of the mobilized shear strength parameters, cohesion ( c, c r) and internal friction angle (Φ, Φ r), are proposed. The investigated soils consisted of the slip surface material belonging to tuffaceous clay, mudstone, loess and siltstone. Most of the previous studies on residual shear strength measured by reversal direct shear and ring shear devices have obtained significantly different results using the two devices, even when pre-cut and polished specimens were used in the direct shear device. In this study, the residual shear strength values of remoulded specimens measured by a ring shear device are shown to significantly correlate with the drained large displacement shear strength values of remoulded specimens, which were measured using pre-cut and polished specimens in a direct shear device. The correlation between the cohesion measured in the two shear devices is expressed by the linear relationship, $ {c_{\text{r}}} = 0.{7394}c - {6}.{6857} $ , while the correlation between the friction angle measured in the two devices is expressed by the linear relationship, $ {\Phi_{\text{r}}} = {1}.0{852}\Phi - {6}.0{247} $ . The proposed linear correlations for effective cohesion ( c′) and effective friction angle (Φ′) have yielded significant coefficients of determination within an effective normal stress range of 30–150?kN/m 2. 相似文献
18.
钙质砂是中国南海岛礁工程建设的主要建筑材料和地基土成份,其具有高孔隙、易破碎和强度低等不良工程地质特性。为改善钙质砂力学性能,提高其工程可靠性,提出利用微生物诱导碳酸钙沉积(MICP)协同纤维加筋改性钙质砂。文章通过开展无侧限抗压试验以及扫描电镜测试,对比分析不同纤维掺量下MICP固化钙质砂的力学响应特性及微观破坏机理。结果表明:(1)MICP技术能够有效固化钙质砂,并提升其力学强度;(2)纤维能够增加细菌定殖面积,提升碳酸钙沉积量,并由此提升试样延性和韧性,降低刚度;(3)应力应变曲线呈阶梯状多峰特征。在应力上升阶段,砂颗粒和碳酸钙会发生局部破碎;在峰后应力下降阶段,碳酸钙、砂颗粒、纤维的胶结作用增强了纤维的抗拔性能,限制了破坏面的发展;(4)碳酸钙、砂颗粒、纤维的耦合胶结作用是纤维加筋改善试样韧性、延性的根本原因。 相似文献
19.
Microbial induced calcite precipitation (MICP), a bio-cementation process, can be adopted to improve the engineering properties of granular soils. Bio-stimulation, via directly enriching indigenous ureolytic bacteria, is a sustainable and economical approach to achieve MICP. In this study, batch solution experiment was firstly conducted to investigate the biochemical aspects of the bio-stimulated MICP process in coral sands. Three different enrichment media were compared. The statistical analysis was performed to reveal statistically significant factors that influence ureolytic activity, pH value, and viable cell number. Then, the unconfined compression and rainfall-induced erosion tests were conducted to investigate the strength and erosion-resistance of bio-stimulated MICP treated coral sands. The experimental results demonstrate that the enrichment duration, initial urea concentration, and enrichment type are major influencing factors of the ureolytic activity. It is found in this study that yeast-extract-based enrichment media with 170 mM initial urea concentration and enriched for 72 h could achieve the best bio-stimulated MICP treatment efficiency. In addition, higher initial urea concentration in the enrichment medium could yield higher ureolytic activity, which could consequently result in higher cementation content and thus larger UCS and better resistance to rainfall-induced erosion. 相似文献
20.
In order to reduce the cost of the microbial-induced carbonate precipitation, mixotrophic growth of Sporosarcina pasteurii was carried out at different yeast extract/sodium acetate concentrations and constant chemical oxygen demand for optimal production of urease enzyme. Optimization of cultivation conditions was also investigated using a 3-level central composite design approach based on the response surface methodology. A good agreement between predicted values of enzyme activity and experimental results was observed ( R 2 value of 0.973). All three chosen independent variables had statistically great effects on the efficiency of urease activity. The maximum activity of 2.98 mM urea min ?1 was achieved at yeast extract concentration of 5 g L ?1, NH 4 concentration of 9.69 g L ?1, and incubation time of 60 h as the optimal conditions. Thereafter, a novel injection procedure as sequencing batch mode injection has been proposed for bacteria and cementation fluid injection at obtained optimal urease activity. After fourth injection of bacteria and cementation fluid, uniform CaCO 3 distribution with unconfined compression strength of 795 kPa was obtained even for poorly graded sand. The presented experimental approach for optimizing urease activity and strength production in porous media can be used to design the treatment protocol for practical engineering applications. 相似文献
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