层状细土胶结过程中孔隙水压力及液化响应

IF 1.2 4区工程技术 Q4 ENGINEERING, GEOLOGICAL

International Journal of Physical Modelling in Geotechnics Pub Date : 2022-07-18 DOI:10.1680/jphmg.21.00019

Imad Alainachi, M. Fall

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引用次数: 0

摘要

胶结膏体回填体是一种经过胶结处理的细粒土。它广泛应用于地下采矿作业中，用于地面支护和矿山废(尾矿)处理。在现场，CPB可以放置在一层(连续填充)或多层(不连续或顺序填充)。到目前为止，还没有研究利用振动台技术研究不同填充策略对循环事件中CPB响应的影响。本文介绍了研究CPB不同填充策略对其动力荷载岩土力学响应影响的新发现。采用不同的处理方案制备CPB样品，包括一层CPB(间断填充)样品，每层固化时间不同，两层CPB(连续填充)样品分别固化至2.5 h和4.0 h。采用一维振动台对所有试样进行相同的循环加载。岩土参数或特征，包括孔隙水压力、沉降、体积含水量和液化敏感性，在震动前、震动中和震动后进行监测或测定。结果表明:层状cpb试样在加载条件下具有较强的抗液化能力，而未层状cpb试样在固化时间小于4.0 h时易发生液化。

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Pore water pressure and liquefaction response of layered fine soils undergoing cementation

Cemented paste backfill (CPB) is fine-grained soil undergoing cementation. It is widely used in underground mining operations for ground support and mine waste (tailings) disposal. In the field, CPB may be placed in one layer (continuous filing), or multiple layers (discontinuous or sequential filling). Till today, no studies have addressed the effect of the different filling strategies on the response of CPB during cyclic events by using the shaking table technique. This manuscript presents new findings of investigating the effect of the different filling strategies of CPB on its geotechnical response to dynamic loading. CPB samples were prepared with different scenarios, including one Layered-CPB (discontinuous filling) sample at which each layer was cured to different curing time, and two unlayered-CPB (continuous filling) that were cured to 2.5 hrs and 4.0 hrs, respectively. All samples were exposed to same cyclic loading conditions using 1-D Shaking table. Geotechnical parameters or characteristics, including pore-water pressure, settlement, volumetric water content and liquefaction susceptibility were monitored or determined before, during, and after shaking. Obtained results indicate that Layered-CPB samples are resistant to liquefaction under the studied loading conditions, while the unlayered-CPB samples are prone to liquefaction under the studied conditions when they are cured to less than 4.0 hrs of curing time.

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来源期刊

International Journal of Physical Modelling in Geotechnics ENGINEERING, GEOLOGICAL-

CiteScore

3.60

自引率

15.80%

发文量

期刊介绍： International Journal of Physical Modelling in Geotechnics contains the latest research and analysis in all areas of physical modelling at any scale, including modelling at single gravity and at multiple gravities on a centrifuge, shaking table and pressure chamber testing and geoenvironmental experiments.