微生物诱导方解石沉淀对金尾矿砂静态液化行为的影响

Hamed Behzadipour , Abouzar Sadrekarimi
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引用次数: 0

摘要

松散的尾矿很容易发生静态液化,在液化过程中会损失大量强度。本研究探讨了一种称为微生物诱导方解石沉淀(MICP)的可持续技术,以提高金矿淤泥砂尾矿的抗静态液化能力。这些材料富含巴氏芽孢杆菌,在直接简易剪切设备中固结,并多次注入胶结溶液。然后在恒定体积和恒定垂直应力条件下对钙化尾矿进行剪切,以评估其排水和排水剪切行为。结果表明,生物矿化可以通过降低尾矿的收缩趋势来防止其发生静态液化。与未经处理的尾矿试样的应变软化和排水强度损失相比,经过处理的尾矿试样具有很强的应变硬化行为,这就证明了这一点。在经过 MICP 处理后进行的直接简单剪切试验中,可以观察到尾矿的排水和排水剪切强度大幅提高(最多可提高 30 - 50 kPa),切线模量提高(最多可提高 5 MPa),摩擦角上升超过 5°。经 MICP 处理后,还发现尾矿的临界状态线更加陡峭,并向更密集的空隙率转移。这些变化降低了尾矿的液化敏感性,增强了其抗静态液化的能力。处理后的酸溶解进一步表明,处理后的试样中析出了约 4% 至 11% 的 CaCO3。这一含量随着试样空隙率的增加而减少。此外,还利用扫描电子显微镜(SEM)图像和 X 射线衍射(XRD)分析确定了胶结尾矿颗粒微观结构的变化特征。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of microbially induced calcite precipitation on static liquefaction behavior of a gold tailings sand

Loose tailings are susceptible to static liquefaction during which they lose a substantial amount of their strength. This study examines a sustainable technique known as Microbially-Induced Calcite Precipitation (MICP) to improve the static liquefaction resistance of gold mine silty sand tailings. These materials were enriched with Sporosarcina pasteurii, consolidated in a direct simple shearing apparatus, and subjected to several injections of a cementation solution. Calcified tailings were then sheared under constant-volume and constant vertical stress conditions to evaluate their undrained and drained shearing behaviors. Results showed that bio-mineralization can prevent the occurrence of static liquefaction in tailings by reducing their contraction tendency. This is demonstrated by the strong strain-hardening behaviors of the treated tailings specimens compared to the strain-softening and undrained strength loss in specimens of the untreated tailings. Substantial increases in the tailings undrained and drained shear strengths (by up to 30 - 50 kPa), improvements (by up to 5 MPa) in their tangent moduli, and more than 5° rise in their friction angles are observed in the direct simple shear tests following MICP-treatment. The critical state line of tailings is also found to be steeper and shifted to denser void ratios following MICP treatment. These changes reduce liquefaction susceptibility of tailings and enhance their resistance against static liquefaction. Post-treatment acid dissolution further indicates that CaCO3 contents of about 4% to 11% precipitated in the treated specimens. This amount decreases with increasing specimens void ratio. Changes in the microstructural fabric of the cemented tailings particles are also characterized using scanning electron microscopic (SEM) images and X-ray diffraction (XRD) analyses.

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