表面活性剂改性膨润土的表征、效果及对比分析

IF 1.7 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
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引用次数: 0

摘要

世界各地都有广阔的土壤。粘土矿物蒙脱石是造成土壤膨胀的主要原因。由于膨胀土能够随着水分含量的季节性变化而收缩和膨胀,这些膨胀土会对工程建设造成重大损害。为了稳定膨胀土的影响,各种地基改善技术,包括矿物学改性粘土。由于粘土矿物具有相同的尺寸性质,近年来,纳米技术在处理粘土矿物方面的应用有所增加。为了了解纳米改性粘土的行为,我们选择了代表蒙脱土粘土矿物的膨润土。对纳米改性膨润土进行了表征。对表面改性膨润土的理化性质和结构性质进行了研究。膨胀压力通过固结计测试评估。利用先进的纳米技术仪器技术,对处理后和未处理的土壤进行了粒度分析、zeta电位、润湿性、接触角、红外光谱、流变性能、BET表面积、pH值、XRD、TGA等,以了解表面改性的比较行为。结果表明,纳米表面活性剂大大降低了材料的液限和收缩率。表面活性剂用量的增加使d-间距增大。膨润土经过表面处理后,其热稳定性和粒径均有所提高。土壤经过表面改性后达到粘弹性状态,BET表面积减小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Surfactant Modified Bentonite Characterization: Effects and Comparative Analysis
Extensive soils can be found all over the world. The clay mineral montmorillonite is predominantly responsible for soil expansion. Because of their ability to shrink and swell with seasonal changes in moisture content, these expansive soils can cause significant damage to engineering construction. To stabilize the effects of swelling soil various ground improvement techniques, incorporate mineralogical modification of clays. The application of nanotechnology increased in past few years to deal with clay minerals as it possesses the same dimensional properties. To understand the behaviour of Nano modified clay, bentonite was selected as it represents the montmorillonite clay mineral. The characterization of surface-treated bentonite by nanomaterial was carried out. The study of physio-chemical properties and textural properties of surface-modified bentonite clay was carried out. Swelling pressure was evaluated by a consolidometer test. With the advanced nanotechnology instrumentation technique, particle size analysis, zeta potential, wettability, contact angle, infra-red spectroscopy, rheological properties, BET surface area, pH values, XRD, TGA, etc was carried out for treated and untreated soil, to understand the comparative behaviour of surface modification. It was found that by using Nano surfactant, liquid limit and shrinkage limit were reduced considerably. The increase in the quantity of surfactant increases the d-spacing. Thermal stability and particle size increase after surface treatment of bentonite clay. Soil reaches a visco-elastic state and BET surface area decreased after surface modification.
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Advances in Natural Sciences: Nanoscience and Nanotechnology
Advances in Natural Sciences: Nanoscience and Nanotechnology NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY
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