浆体充填体沉积过程及沉积后孔隙水压力及总应力演化的实验研究

IF 2.5 3区 工程技术 Q2 ENGINEERING, CIVIL Geomechanics and Engineering Pub Date : 2021-01-01 DOI:10.12989/GAE.2021.26.5.499
El Mustapha Jaouhara, Jian Zheng, Li Li
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引用次数: 0

摘要

采矿充填体越来越多地用于地下矿山充填采场。它的成功应用取决于为保留采场充填体而建造的路障的稳定性。障碍物的设计需要很好地估计孔隙水压力(PWP)和沉积期间和之后的总应力。在这方面,已经发表了大量关于解析解和数值解的著作。然而,同时测量PWP以及水平和垂直总应力的实验结果很少,可以用来验证或校准解析和数值解。对于一个具体的项目,实地测量在实地条件的代表性方面是有趣的,但结果很难正确解释,因为所处理的问题可能涉及大量的不确定性,所获得的结果是由于几个影响因素的综合作用。因此,简化和良好控制条件的实验室测试是首选。然而,到目前为止,之前的大多数实验室测试都是用干充填体或在围合结构中立即倒入尾矿浆进行的,没有同时测量PWP以及水平和垂直总应力。充填率和充填体固含量对充填过程中PWP和总应力变化的影响研究尚缺乏。为了填补这些空白,进行了一系列柱式回填试验,同时测量了水泥浆充填期间和沉积后的PWP以及垂直和水平总应力。当充填率较高时,试验结果表明:充填浆沉积过程中,PWP、水平总应力和垂直总应力均以相同的速率增大,且均等于等地静力覆盖层压力;它们的峰值出现在沉积结束时。因此,充填体在沉积过程中表现得像一种很少产生有效应力的液体。高填充率和/或高固体含量导致沉积结束时的高PWP和水平总应力。当充填速率较小时,PWP和总应力在充填结束时也出现峰值,但由于传感器的悬浮和应力屏蔽效应的存在,沉积结束后中心的垂直总应力随时间继续增大。研究结果还表明,浆体沉降结束后,充填体沉降总体上呈现快速演化速率阶段,其次是缓慢演化速率阶段。随着固体含量的降低,充填体快速演化速率阶段持续时间和最终沉降量增加。料浆沉降结束后的最终沉降与固含量有关,而与充填率无关。
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Experimental study of the evolution of pore water pressure and total stresses during and after the deposition of slurried backfill
Mining backfill is increasingly used in underground mines to fill stopes. Its successful application depends on the stability of barricades built to retain the backfill in stopes. The design of barricades requires a good estimation of pore water pressure (PWP) and total stresses during and after the deposition. On this regard, a large number of works have been published on analytical and numerical solutions. There are however very few experimental results with simultaneous measurements of PWP as well as horizontal and vertical total stresses that can be used to validate or calibrate the analytical and numerical solutions. For a specific project, field measurements are interesting in terms of representativeness to field conditions, but the results are very difficult to be correctly interpreted because the treated problem can involve a large number of uncertainties and the obtained results are due to combined effects of several influencing factors. Laboratory tests with simplified and well-controlled conditions are thus preferred. Until now, however, the most previous laboratory tests were conducted with dry backfill or with a tailings slurry instantaneously poured in a confining structure without simultaneous measurements of PWP as well as horizontal and vertical total stresses. Studies on the effects of filling rate and solid content of backfill on the variation of PWP and total stresses during the filling operation are absent. To fill these gaps, a series of column backfilling tests were conducted with simultaneous measurements of PWP as well as vertical and horizontal total stresses during and after the deposition of slurried backfill. When the filling rate is high, the test results showed that the PWP, horizontal and vertical total stresses increase at the same rate and equal to the iso-geostatic overburden pressure during the deposition of backfill slurry. Their peak values appear at the end of deposition. The backfill thus behaves like a liquid with little generation of effective stresses during the deposition. High filling rate and/or high solid content lead to high PWP and horizontal total stresses at the end of deposition. When the filling rate is small, the PWP and total stresses exhibit also peak values at the end of filling operation, but the vertical total stress at the center can continue increasing with time after the end of deposition due to the suspended sensor and occurrence of a phenomenon known as stress shielding effect. The results also showed that the settlement of settled backfill after the end of slurry deposition can generally exhibits a fast evolution rate stage, followed by a slow evolution rate stage. The duration of the fast evolution rate stage and the final settlement of the settled backfill increase as the solid content decreases. The final settlement after the end of slurry deposition is related to the solid content, not to the filling rate.
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来源期刊
Geomechanics and Engineering
Geomechanics and Engineering ENGINEERING, CIVIL-ENGINEERING, GEOLOGICAL
CiteScore
5.20
自引率
25.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: The Geomechanics and Engineering aims at opening an easy access to the valuable source of information and providing an excellent publication channel for the global community of researchers in the geomechanics and its applications. Typical subjects covered by the journal include: - Analytical, computational, and experimental multiscale and interaction mechanics- Computational and Theoretical Geomechnics- Foundations- Tunneling- Earth Structures- Site Characterization- Soil-Structure Interactions
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