Soil stabilization by integrating dust particles with calcium lignosulphanate

IF 3 3区地球科学 Q2 GEOGRAPHY, PHYSICAL Progress in Physical Geography-Earth and Environment Pub Date : 2023-10-23 DOI:10.1177/03091333231209157

Velagapalli Chiranjeevi, Kamal Singh, D Kishan

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Abstract

This paper analyzes the stabilizing effect of stone dust, granite dust, marble dust, and calcium lignosulphonate on construction materials and natural soils during road construction. The ultimate aim was to enhance the soil’s engineering properties such that the pavement constructed could correctly withstand the load applied. To achieve this, every stabilizer was amalgamated with the soil at various percentages between 5 and 50%. Measurements were made of Atterberg limit tests, moisture content, and specific gravity. The research demonstrated that a diminution in optimal moisture content was seen, with an elevation in maximum dry density and California bearing ratio (CBR). Enhancements in the unconfined compressive strength were also identified. The outcomes determined that the untreated soil’s CBR was 2.27% and in the case of soil with 45% additives, the CBR attained was 5.05%. When the soil was mixed with 50% additives, performance of 30.21%, 17.42%, and 12.82% was exhibited for (a) liquid limit, (b) plastic limit, and (c) plasticity index. Moreover, via the addition of presented stabilizers, the soil’s mechanical properties were elevated appreciably.

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用木质素磺酸钙整合粉尘颗粒来稳定土壤

分析了石粉、花岗岩粉、大理石粉和木质素磺酸钙在道路施工中对建筑材料和天然土壤的稳定作用。最终目的是提高土壤的工程特性，使路面能够正确地承受所施加的载荷。为了达到这一目的，每种稳定剂都以5%至50%的不同百分比与土壤混合。测量方法包括阿特伯格极限测试、水分含量和比重。研究表明，随着最大干密度和加州承载比(CBR)的升高，最佳含水率有所降低。在无侧限抗压强度的增强也被确定。结果表明，未处理土壤的CBR为2.27%，添加45%添加剂的土壤的CBR为5.05%。当掺量为50%时，(a)液限、(b)塑性限、(c)塑性指标分别为30.21%、17.42%和12.82%。此外，通过添加所提出的稳定剂，土壤的力学性能明显提高。

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来源期刊

Progress in Physical Geography-Earth and Environment 地学-地球科学综合

CiteScore

7.20

自引率

5.10%

发文量

审稿时长

>12 weeks

期刊介绍： Progress in Physical Geography is a peer-reviewed, international journal, encompassing an interdisciplinary approach incorporating the latest developments and debates within Physical Geography and interrelated fields across the Earth, Biological and Ecological System Sciences.