废玻璃对处理过的问题土壤性质的影响

IF 1.2 Q3 MULTIDISCIPLINARY SCIENCES
Jaylan H. Sherwany, Jamal I. Kakrasul, Jie Han
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引用次数: 0

摘要

土壤是工程项目中最常用的建筑材料。细粒土尤其是粘性土在潮湿时会膨胀并失去强度,在干燥时会收缩,从而导致体积发生显著变化。在软弱土壤上施工给世界各地的各种土木工程项目(包括道路、堤坝和地基)带来了挑战。因此,改良软土至关重要,尤其是在公路建设中。废玻璃(WG)等废物回收材料可以改善这类土壤的性质。首先必须将废玻璃碾碎并研磨成细粉,然后才能按不同比例与土壤混合。本研究的主要目的是审查 WG 对经 WG 处理的细粒土岩土特性的影响。为了证明这些影响,我们将不同比例 WG 处理过的细粒土与未处理过的土进行了比较。对物理特性(如 Atterberg 限值、膨胀性和最大干密度)和机械特性(如加州承载比和无侧限抗压强度)进行了评估。文献中的测试结果表明,添加一定比例的 WG 会对细粒土的特性产生重大影响;因此,使用 WG 可以减少车道和道路建设中所需的路基厚度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of Waste Glass on Properties of Treated Problematic Soils
Soils are the most commonly used construction material in engineering projects. Fine-grained soils especially clayey soil may expand and lose strength when wet and shrink when dry, resulting in a significant volume change. Construction on weak soils has created challenges for various civil engineering projects worldwide, including roadways, embankments, and foundations. As a result, improving weak soil is vital, particularly for highway construction. The properties of this type of soil can be improved by waste-recycled materials such as waste glass (WG). The WG must be crushed and ground to a fine powder first and then can be mixed in various proportions with the soil. The primary objective of this study is to review the effect of WG on geotechnical properties of fine-grained soils treated by WG. To demonstrate the effects, the treated fine-grained soils at varying percentages of WG are compared with untreated soils. Physical properties (e.g., Atterberg limits, swelling, and maximum dry density), mechanical properties (e.g., California bearing ratio, and unconfined compressive strength) are evaluated. The test results from the literature show that adding a certain percentage of WG leads to a substantial effect on the properties of fine-grained soils; hence, using WG could reduce the required thickness of subbases in the construction of driveways and roads.
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来源期刊
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY
ARO-THE SCIENTIFIC JOURNAL OF KOYA UNIVERSITY MULTIDISCIPLINARY SCIENCES-
自引率
33.30%
发文量
33
审稿时长
16 weeks
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