木质素改性分散土的分散性和力学性能分析

Zhongyu Yu, Xin Xu, Hao Liu, Zeju Wu
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摘要

分散土是一种对水敏感的特殊土壤,在工程中遇水易产生沟壑、管道等破坏。为了改善分散土不良的工程性质,吉林省西部地区选用了一种木质素来改善分散土的分散性和力学性质。对不同木质素含量的改良土样进行了针孔试验、碎片试验、无侧限抗压强度试验和电阻率试验。结果表明,木质素能显著降低分散土的分散性。随着固化时间的延长,改良土样的无压抗压强度逐渐增加。随着木质素含量的增加,改良土的无压抗压强度先增大后减小,当木质素含量为 3% 时强度达到峰值。在电阻率测试中,改良土的电阻率随着木质素含量的增加而逐渐降低。通过对木质素改良土样品的显微分析,可以得出结论:木质素纤维在土壤中起到立体粒状架桥作用,促进形成较大的团聚体,减弱单个土粒的分散性,从而降低土块的分散性,提高土块强度。该研究可为季节性冰冻地区分散性土壤的改良提供依据,具有实际工程意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Analysis of Dispersibility and Mechanical Properties of Lignin Modified Dispersive Soil
Dispersive soil is a kind of special soil with water sensitivity, which is easy to produce ravages such as gully and piping when encountering water in engineering. In order to improve the poor engineering properties of dispersive soil, a kind of lignin was selected to improve the dispersibility and mechanical properties of dispersive soil in western Jilin Province. Pinhole test, fragment test, unconfined compressive strength test and resistivity test were carried out on the improved soil samples with different lignin content. The results showed that lignin could significantly reduce the dispersibility of dispersive soil. With the increasing of curing time, the unconfined compressive strength of the improved soil samples increased gradually. With the increase of lignin content, the unconfined compressive strength of the improved soil first increased and then decreased, and the peak strength appeared when the lignin content was 3%. In the resistivity test, the resistivity of the improved soil decreased gradually with the increase of lignin content. Through microscopic analysis of lignin improved soil samples, it can be concluded that lignin fibers play a stereograin-like bridging role in soil, which promotes the formation of larger aggregates, weakens the dispersion of single soil particles, and thus reduces the dispersion of soil mass and improves the strength of soil mass. This study can provide a basis for the improvement of dispersive soil in seasonal freezing area and has practical engineering significance.
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