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101.
The distribution of Coulomb failure stress (CFS) change in the steep excavation slope is calculated by finite element method in this paper, and the failure mechanics under different conditions have been investigated. Comparing the CFSs before and after the slope excavation (stress loading and unloading processes), the dangerous internal zone and the most likely failure external area are attained. Given the shear cracks on the top surface while tensile stress or cracks along the toe of the slope, we analyze the high cutting-angle steep slope in Kaixian county of the Three Gorges Reservoir region. We bring forward that the peak value of CFS after excavation can reach to the order of 0.1 MPa, which is greatly higher than that of before. Our preliminary results are useful for optimizing the reinforcement structure during the steep slope stabilization engineering. 相似文献
102.
The objective of this work was to describe a method for isolating meaningful and measurable soil organic matter (SOM) pools that differ in the mechanisms by which they are protected from decomposition. The proposed method is appropriate for soil C stabilization and sequestration studies. Unlike previous fractionation schemes, this procedure allows free SOM located between aggregates (unprotected C pool) and SOM occluded within both macroaggregates and microaggregates (C weakly and strongly protected by physical mechanisms, respectively) to be recovered separately, freed from the soil mineral matrix and the mineral‐associated SOM pool (C pool protected by chemical mechanisms) and thus well suited to advanced chemical characterization by 13C‐NMR. Briefly, free SOM is isolated by an initial density separation. Stable macroaggregates are broken up into stable microaggregates and intra‐macroaggregate SOM, which is then separated by density. Finally, intra‐microaggregate SOM is isolated from mineral‐associated SOM by a third density separation after ultrasonic disruption. The SOM dissolved during the fractionation procedure is also recovered. Results obtained on soil samples with contrasting textures suggested that clay content induces a decrease of the proportion of free organic C and an increase of mineral‐associated organic C content. Free SOM is characterized by a marked presence of undecayed organic material and biologically labile substances, such as carbohydrates and proteins. In contrast, SOM occluded within aggregates, especially within microaggregates, represents a more decomposed fraction, relatively enriched in unsubstituted‐aliphatic material, most probably lipid biopolymers. 相似文献
103.
104.
Chris H. Hugenholtz 《地球表面变化过程与地形》2010,35(14):1674-1681
Topographic surveys on an inland parabolic sand dune over a six‐year period provide insight into the effects of diminishing local sand supply on dune stabilization. During the interval (2003–2009) sparse vegetation cover (Psoralea lanceolata) increased despite drier than normal moisture conditions and steady wind power during the growing season. Whereas these climatic conditions are typically ascribed to sustaining or increasing dune activity, here they coincide with stabilization. Through the use of geographic information system (GIS) analysis of volumetric changes it is shown that the increase of P. lanceolata can be attributed to the reduction of local sand supply from two blowouts along the arms of the parabolic dune during the six‐year period. These results show that climate is not the only control on dune activity in vegetated inland dunefields. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
105.
为了解加入纤维对水泥土力学性能的影响,对素水泥土及纤维水泥土进行了无侧限抗压和疲劳试验。研究结果表明,添加纤维可小幅度提高水泥土的抗压强度;与素水泥土相比,纤维水泥土在达到应力峰值时的应变明显增大,破坏后的残余强度也有所提高;纤维的加入提高了水泥土的延性,减少了裂缝的开展,改善了其力学性能;添加纤维后水泥土抵抗疲劳的能力明显增强;掺入纤维对水泥土抗疲劳能力的提高程度远大于其对水泥土无侧限强度的提高程度;水泥土的应力水平和疲劳寿命之间具有单对数线性关系;在循环荷载作用下水泥土表现为低应力性破裂特征。 相似文献
106.
既有研究表明,活性MgO固化土经CO2碳化几小时后其强度能达到甚至超过28 d的水泥固化土强度,碳化反应生成镁的碳酸化合物能有效降低固化土的含水率和孔隙率,提高土颗粒胶结能力。通过室内试验进一步研究碳化固化土的抗硫酸盐侵蚀特性。采用硫酸钠溶液、硫酸镁溶液浸泡碳化固化土,对浸泡不同龄期后的碳化固化土进行无侧限抗压强度试验和微观测试(XRD,SEM和MIP),并与硫酸盐侵蚀后的水泥固化土进行试验对比。结果表明:活性MgO固化粉土碳化3 h,试样的无侧限抗压强度可达5 MPa左右,经硫酸盐溶液浸泡28 d后其强度基本保持不变,试样质量变化也不大;而水泥土试样的早期强度(7 d)则有一定增长,随龄期增长,强度大大降低,质量则明显增长。通过对硫酸盐侵蚀前后的碳化土的微观机制分析,发现活性MgO碳化固化土中的镁碳酸化合物的化学成分并未发生明显变化,孔隙结构也未明显改变,从而保证其强度稳定。因此,活性MgO固化粉土碳化后具有比水泥固化土更强的抗硫酸盐侵蚀能力。 相似文献
107.
采用水泥固化海泥(CSMC)作为围海垦地填料正在被广泛关注。由于水化放热,当环境温度较高时大体积填筑的CSMC内部实际养护温度可能明显高于室内标准养护温度(≈ 20 ℃),这必然会对CSMC的强度发展产生影响,但目前工程实践中并未考虑这一温度差异的影响。因此,基于室内试验,测试了不同配合比CSMC试样在不同养护温度下的强度发展过程,并重点探讨了养护温度对CSMC强度发展的影响规律及其内在机制。结果表明:养护温度对CSMC强度发展影响显著,高的养护温度不仅会显著提高CSMC的早期强度,而且会比较明显地提高CSMC的晚期强度,这就意味着在CSMC垦地工程实践中考虑养护温度的影响是十分必要的。鉴于此,文中最后给出了如何在CSMC垦地工程实践中考虑养护温度对强度发展影响的建议和设计流程。 相似文献
108.
针对富水破碎地层注浆治理过程中传统水泥类材料难以实现注浆加固和堵水同步进行的难题,以硫铝酸盐水泥熟料和钢渣微粉为主要原材,成功制备了一种水泥基复合注浆材料(CGM)。通过与传统水泥材料进行性能对比试验,采用扫描电镜和X射线测试手段,分析了CGM材料制备工艺、组分含量和浆液制备条件对材料性能的作用规律,并检验了CGM材料的工程适用性。结果表明:CGM材料宜采用混合粉磨制备工艺,可显著提高其水化活性,且粉磨时间应不超过45 min。钢渣微粉含量越高,水灰比越大,结石体强度越低,凝结时间越长,水灰比超过1.2:1时,结石体后期会出现干缩。与传统水泥材料相比,CGM材料浆液凝结时间与黏度的环境敏感度低,具有显著的工程适用性和性能优越性。 相似文献
109.
通过对塔中地区上奥陶统数百块碳酸盐岩薄片和抛光面中各种方解石胶结物特征和成因的观察,并结合微量元素和碳、氧同位素分析,共识别出11种胶结物类型。详细描述了各胶结物的特征,并确定了胶结物的分布和形成次序。在此基础上对该区碳酸盐岩方解石胶结物形成环境进行了分析,共划分出海底成岩环境、大气水成岩环境和埋藏成岩环境。从而为该区孔隙演化史的建立和有利勘探目标预测提供了有力的依据。 相似文献
110.
通过对水泥厚层基材的直剪试验、无侧限抗压试验和三相分布、养分及pH值测定结果的综合分析,论证了水泥粘结基材替代化学粘结基材进行边坡绿化的技术可行性;同时通过比选优化了基材配比. 相似文献