Clay Soil Stabilisation Using Bioenzyme

Journal of Geotechnical Studies Pub Date : 2023-05-15 DOI:10.46610/jogs.2023.v08i02.001

Sufana Ahammed, S. T.

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Abstract

The engineering properties of the soils can be improvised, higher soil compaction densities are also possible, and soil stability is also increased by the use of a bio enzyme named Terrazyme. It is a naturally obtained, non-toxic, non-flammable, and non-corrosive liquid enzyme formulated from various fermented vegetables, fruits, sugarcane extracts and soil. It is possible to complement bio enzymes like coenzymes too. It is possible to determine the stability by varying the bio enzyme addition rates in the soil. Liquid limit, California Bearing Ratio, Unconfined compressive strength, and Compaction other tests can be carried out, and the findings are compared to the typical soil strength. So that we can withstand the failure of problematic soil that is commonly seen over our state. It's a major problem that infrastructural failure and traffic failure that is arising due to high loads coming from the superstructure, where it is not possible to be stranded by the soil strata in every case. Here various dosages were tried out such as 0.3%, 0.6% and 0.9%. Here samples were collected from three different parts of Kozhikode districts. Then finally I came to know that 0.6% of Terrazyme addition resulted in the best result in the three samples.

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利用生物酶稳定粘土

土壤的工程特性可以即兴发挥，更高的土壤压实密度也是可能的，土壤的稳定性也可以通过使用一种名为Terrazyme的生物酶来提高。它是一种天然获得的，无毒，不易燃，无腐蚀性的液体酶，由各种发酵蔬菜，水果，甘蔗提取物和土壤配制而成。也可以补充辅酶等生物酶。可以通过改变土壤中生物酶的添加速率来确定其稳定性。可进行液限、加州承载比、无侧限抗压强度、压实等试验，并将试验结果与典型土体强度进行对比。这样我们就能承受我们州常见的问题土壤的破坏。由于来自上层建筑的高负荷而引起的基础设施故障和交通故障是一个主要问题，而上层建筑不可能在任何情况下都被土层搁浅。本实验分别试验了0.3%、0.6%、0.9%等不同剂量。在这里，样本是从科日科德县的三个不同地区收集的。最后我了解到，在三个样品中，添加0.6%的Terrazyme效果最好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Geotechnical Studies

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