Stabilization of Expansive Clays Using Granulated Blast Furnace Slag (GBFS) and GBFS-Cement   总被引：1，自引：0，他引：1  

Erdal Cokca  Veysel Yazici  Vehbi Ozaydin 《Geotechnical and Geological Engineering》2009,27(4):489-499

Expansive clays undergo swelling when subjected to water. This can cause damage, especially to light weight structures, water conveyance canals, lined reservoirs, highways, and airport runways unless appropriate measures are taken. In this study, granulated blast furnace slag (GBFS) and GBFS-cement (GBFSC) were utilized to overcome or to limit the expansion of an artificially prepared expansive soil sample (sample A). GBFS and GBFSC were added to sample A in proportions of 5–25% by weight. The effects of these stabilizers on grain size distribution, Atterberg limits, swelling percentage and rate of swell of soil samples were determined. GBFS and GBFSC were shown to successfully decreasing the total amount of swell while increasing the rate of swell.  相似文献   

Enhancing the mechanical properties of marine clay using cement solidification     

Bhim Kumar Dahal  Rong-Jun Zhang  Ding-Bao Song 《Marine Georesources & Geotechnology》2013,31(6):755-764

Abstract

The use of soft clay and dredged marine clays as the construction material is challenging. This is because the high water content, high compressibility and low permeability of the clay causing the instability of ground and structure. This detrimental effect of soft clay can be improved by the cement solidification process, which is relatively cheap and efficient. This paper mainly focuses on the study of improvement on the mechanical behavior of cement mixed marine clay. The soil is reconstituted by using ordinary Portland cement of 5%, 10%, 15% and 20% by its mass. The study reveals that cementation of clay significantly improves the peak and residual strength of soil. Similarly, the primary yield stress of the soil is also improved from 16 to 275?kPa as cement content increases from 5% to 20%, respectively. By using statistical tools, the relationships between various parameters are established, which are very important to define the mechanical behavior of the clay. This study reveals that the yield surface of the solidified marine clay is not a smooth elliptical surface. Rather it is composed of two linear surfaces followed by a log-linear surface which can be modeled by using simple parameters obtained from triaxial tests.  相似文献   

Cement Deep Soil Mixing (CDSM) for Solidification of Soft Estuarine Sediments     

A. Maher  W. S. Douglas  D. Yang  F. Jafari  V. R. Schaefer 《Marine Georesources & Geotechnology》2013,31(3-4):221-235

A preliminary study was conducted to determine the potential for cement deep soil mixing (CDSM) technology as a method for in-situ solidification of contaminated river and estuarine sediments. The study was conducted in Newark Bay, near the mouth of the Passaic River, New Jersey. The primary objective of the study was to evaluate the viability of CDSM for the in-situ S/S with a focus on: 1) determining the correct mix of the cement slurry, which provides rapid stabilization of the sediment matrix, 2) potential resuspension of solids during CSDM operations, 3) the effects of high organic content on the solidification process, and 4) the feasibility of using conventional dredging/extraction methods once the sediments have been stabilized and allowed to cure. The results of the study show CDSM slurry mixtures, as low as 7% in cement content, result in significant solidification and strength gain of in-situ sediments under ambient conditions. In sediments with very high organic contents (> 20%), the slurry mix would need to be adjusted to account for retardation effects of organics on cement hydration. Sediment resuspension during application was shown to be minimal at a distance of as little as 75 feet from the mixing head. Strength gains were considerable, effectively consolidating the sediment particles in a secure matrix, but not so high as to preclude extraction of solidified sediments with conventional dredging equipment. Dredged solidified sediment exhibited characteristics of a stiff glacial clay, and as such was easier to handle and transport than untreated dredged sediments. This technique has high potential to be used as an interim remedial measure prior to either extraction and decontamination/disposal or proper capping.  相似文献   

实施低碳水泥标准的影响及协同减排效果分析     

庞军石媛昌  冯相昭刘嘉 孙文龙 《气候变化研究进展》2013,9(4):275-283

采用MAP-CGE模型,模拟了我国水泥行业实施低碳水泥标准对不同生产工艺产出、能耗及污染排放的影响,测算了对其边际减排成本和均衡价格的影响,分析了对不同污染物的协同减排效果。模拟结果表明：实施低碳水泥标准有利于水泥生产工艺的升级换代,并有助于水泥行业节能减排;在现有技术水平下,水泥行业在减排1 t CO2的同时将带来约1.17 kg的SO2减排量和4.44 kg的NOx减排量;实施低碳水泥标准对于水泥行业控制NOx排放很有利;但水泥行业也需承担减排成本并导致其均衡价格的小幅上升。  相似文献   

固化铅污染土的干湿循环耐久性试验研究   总被引：2，自引：0，他引：2  

曹智国  章定文  刘松玉 《岩土力学》2013,34(12):3485-3490

在商用高岭土、膨润土与商业黄砂混合物中加入硝酸铅溶液,添加水泥和石灰两种固化剂,采用室内压实制样方法获得固化的铅污染土试样。进行干、湿循环试验,测试固化体的质量损失和无侧限抗压强度等参数随干、湿循环次数的变化规律,评价固化铅污染土的干、湿耐久性。测试结果表明,本试验8种配比的试样都满足干、湿循环的要求;黏土矿物为膨润土的试样干、湿循环耐久性比黏土矿物为高岭土的试样要差;水泥固化土的干、湿循环耐久性要略优于石灰固化土;加入 8 000 mg/kg的铅可略增大土体的抗干、湿循环耐久性。水泥和石灰固化/稳定化重金属污染土时,土体中含水率是保证加固效果的关键参数之一。土体中含水率应能满足固化剂充分水化、水解、火山灰和碳酸化反应之需要。  相似文献   

便携式钻机在水泥灰岩矿勘查中的应用          下载免费PDF全文

周旭林  尹辉暾  周子幸  李成 《探矿工程》2017,44(6):1-5

便携式钻机已广泛应用于地质与工程勘查中,为了进一步扩大便携式钻机的应用范围,倡导绿色勘查,在湖南省东安县王师岭矿区水泥灰岩矿勘查中,采用ZY-25型便携式钻机以钻代槽进行地表取样,取得了较好的效果。应用实践表明,当矿区构造简单,岩层产状较平缓且稳定,矿体厚度较大,矿石有用组分含量较高且分布均匀,有害组分含量较低时,采用便携式钻机取样代替槽探取样评价矿床是可行的。  相似文献   

纤维水泥土力学性能的试验研究     

鹿群  郭少龙  王闵闵  高萌 《岩土力学》2016,37(Z2):421-426

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   

养护温度对水泥固化淤泥强度影响试验研究     

章荣军  郑俊杰  程钰诗  董瑞 《岩土力学》2016,37(12):3463-3471

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   

富水破碎岩体注浆加固材料试验研究与应用     

李召峰  李术才  刘人太  蒋宇静  张庆松  杨磊  沙飞  陈泊涵  王宏亮 《岩土力学》2016,37(7):1937-1946

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   

塔中上奥陶统方解石胶结物类型及其形成环境     

王振宇  ;吴丽  ;张云峰  ;韩剑发  ;张丽娟 《西安地质学院学报》2009,(3):265-271

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