循环交通荷载作用下轻EICP胶结砂应变累积的研究

Emad Maleki Tabrizi, Hamid Reza Tohidvand, Masoud Hajialilue-Bonab, Elham Mousavi, Saba Ghassemi
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引用次数: 4

摘要

化学水泥的工业生产导致温室气体的极端排放。用于土壤处理项目的生物或生物启发的可持续材料可以代替化学水泥来修复生态系统中的碳循环。酶促方解石沉淀(EICP)法是一种新型的生物启发技术,可用于土壤处理项目,以提高土壤的预期性质。虽然已经全面研究了酶处理砂土的单调和循环行为,但在循环交通荷载下,这些改良土壤中的应变积累模式尚未得到评估。本文对酶促轻胶结砂进行了有限和无侧限循环压缩试验,首次研究了不同参数对其应变累积模式的影响。本研究使用了两种无侧限抗压强度(UCS)等于42的试样​kPa和266​kPa。研究表明,处理后的试样具有与速率相关的行为,其中低频循环载荷会导致试样中产生更大的弹性和塑性应变。结果表明,通过接近试样无侧限抗压强度的最大应力(通过破坏砂粒之间更多的方解石键),试样的速率依赖性行为将降低。对胶结水平影响的研究表明,在相同的加载条件下,通过将沉淀方解石的量从0.38%增加到0.83%,累积塑性应变减少了近95%。还评估了初始静载荷、围压、循环次数和循环载荷振幅的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An investigation on the strain accumulation of the lightly EICP-cemented sands under cyclic traffic loads

Industrial production of chemical cement leads to extreme emissions of greenhouse gases. Biological or bio-inspired sustainable materials for soil treatment projects can be employed instead of chemical cement to heal the carbon cycle in the ecosystem. The enzyme-induced calcite precipitation (EICP) method is one of the novel bio-inspired technologies that can be employed in soil treatment projects to increase desired properties of soils. While the monotonic and cyclic behavior of the enzymatically treated sands has been investigated comprehensively, the strain accumulation pattern in these improved soils under cyclic traffic loads has not been evaluated yet. In this paper, confined and unconfined cyclic compression tests are applied to the enzymatically lightly cemented sands, and the effects of the different parameters on their strain accumulation pattern are investigated for the first time in the literature. This study uses two types of specimens with unconfined compression strengths (UCS) equal to 42 ​kPa and 266 ​kPa. It is shown that the treated specimens have a rate-dependent behavior where cyclic loads with low frequencies lead to more resilient and plastic strains in the specimens. The results show that by approaching the maximum applied stresses to the UCS of the specimens (by breaking more calcite bonds between sand particles), the rate dependency behavior of specimens will reduce. Investigation of the effects of the cementation level demonstrated that by increasing the amount of the precipitated calcite from 0.38% to 0.83%, accumulated plastic strains are reduced almost 95% under the same loading condition. Effects of the initial static loads, confining pressures, the number of cycles, and amplitudes of the cyclic loads are also evaluated.

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