Pengaruh Kultur Bakteri Pada Proses Biosementasi Tanah Laterit Terhadap Nilai CBR

Media Ilmiah Teknik Sipil Pub Date : 2023-06-14 DOI:10.33084/mits.v11i2.4590

A. Indriani, Gunaedy Utomo, Nurul Fitriyani

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Abstract

Lateritic soils have a high rate of weathering and non-uniform shrinkage. So this land is not good for construction work. Biocementation is a method of soil improvement by using the ability of bacteria that have lived in the soil to do the MCIP (Microbial-induced Calcite Precipitation) process which is obtained from the bacterium Bacillus Subtilis. This biocementation stabilization can increase the strength of the soil by adding Bacillus Subtilis bacteria as an additive to stabilize the soil. The test was carried out to determine changes in the mechanical properties of CBR Laboratory soil, by mixing 3% bacteria into the soil to be stabilized. The results of testing the CBR value of the Soaked Laboratory with one day of culture increased 4.8-fold at the 28-day curing period and increasing the CBR value of the Soaked Laboratory of three-day culture increased up to 4.9 times the CBR value before stabilization, which was 19.5%. The results of the study with stabilization using bacteria variation of 3% one-day culture increased up to 95% and increased up to 96% in three-day culture. So that it can be used as a soil material for road foundations in class B.

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细菌培养对后来土壤的生物性影响影响了CBR的价值

红土的风化速率高，收缩不均匀。所以这块地不适合建筑。生物固结是一种利用生长在土壤中的细菌进行从枯草芽孢杆菌中获得的MCIP(微生物诱导方解石沉淀)过程的土壤改良方法。这种生物胶结稳定性可以通过添加枯草芽孢杆菌作为稳定土壤的添加剂来增加土壤的强度。通过在待稳定的土壤中加入3%的细菌，进行了CBR实验室土壤力学特性变化的试验。在28天的养护期内，浸泡1天的CBR值测试结果增加了4.8倍，浸泡3天的CBR值增加了4.9倍，达到稳定前的19.5%。研究结果表明，采用3%的细菌稳定化培养，1天培养可增加95%，3天培养可增加96%。使其可作为乙级道路基础的土料。

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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