Thermo-mechanical behaviour of a kaolin-based clay soil

IF 4.2 1区 工程技术 Q1 ENGINEERING, GEOLOGICAL Geotechnique Pub Date : 2023-10-27 DOI:10.1680/jgeot.21.00194
Andrew Kirkham, Aikaterini Tsiampousi, David M. Potts
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Abstract

The thermal behaviour of KSS, a low plasticity artificial clay made with kaolin clay, silt, and sand, was investigated in a series of temperature-controlled oedometer tests, at temperatures between 5 °C and 70 °C, and at vertical pressures up to 2.4 MPa. The experiments investigated the effect of over-consolidation ratio (OCR), pressure level, and repeated thermal cycling on thermally-induced volume change. Thermal volumetric strains were found to be dependent not only on OCR but also on pressure level, contradicting previous experimental findings and highlighting the importance of even a small dependency of compression index C c on temperature. Furthermore, thermal volumetric strains were irreversible on heating and cooling even for highly over-consolidated samples. Although irreversibility at high OCR values has been attributed to particle rearrangement and plastic accommodation in the past, an alternative explanation is put forward here, as yielding on the Hvorslev surface is expected to occur on unloading under 1D conditions. The tests also revealed evidence of thermal creep for the initially normally-consolidated samples. The effect of both current temperature and temperature history on the reloading response of mechanically over-consolidated KSS was tested and quantified in terms of their effect on the measured pre-consolidation pressure. The results from these tests were compared to results from the available literature referring to clays of similar and higher plasticity and the comparison highlighted that although soil plasticity can explain the observed quantitative differences between high plasticity soils to a large extent, mineralogy, in addition to structure, may also play an important role for low plasticity soils.
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高岭土基粘土的热力学特性
KSS是一种由高岭土、粉土和沙子制成的低塑性人造粘土,研究人员在温度为5°C至70°C、垂直压力为2.4 MPa的条件下进行了一系列温控测试。实验研究了超固结比(OCR)、压力水平和反复热循环对热致体积变化的影响。发现热体积应变不仅依赖于OCR,还依赖于压力水平,这与之前的实验结果相矛盾,并突出了压缩指数C C对温度的依赖性很小的重要性。此外,即使对于高度过度固结的样品,热体积应变在加热和冷却时也是不可逆的。虽然过去高OCR值下的不可逆性归因于颗粒重排和塑性调节,但本文提出了另一种解释,即在1D条件下卸载时,Hvorslev表面的屈服预计会发生。试验还揭示了初始正常固结样品的热蠕变证据。测试了当前温度和温度历史对机械超固结KSS重加载响应的影响,并根据它们对测量的预固结压力的影响进行了量化。将这些试验结果与现有文献中关于相似和更高塑性粘土的结果进行了比较,结果表明,尽管土壤塑性可以在很大程度上解释高塑性土壤之间观察到的定量差异,但除了结构外,矿物学也可能对低塑性土壤起重要作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Geotechnique
Geotechnique 工程技术-地球科学综合
CiteScore
9.80
自引率
10.30%
发文量
168
审稿时长
7 months
期刊介绍: Established in 1948, Géotechnique is the world''s premier geotechnics journal, publishing research of the highest quality on all aspects of geotechnical engineering. Géotechnique provides access to rigorously refereed, current, innovative and authoritative research and practical papers, across the fields of soil and rock mechanics, engineering geology and environmental geotechnics.
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