4.7 Article

Improvement in dynamic behaviors of cement-stabilized soil by super-absorbent-polymer under cyclic loading

Journal

SOIL DYNAMICS AND EARTHQUAKE ENGINEERING
Volume 163, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.soildyn.2022.107554

Keywords

Super-absorbent-polymer (SAP); Dynamic elastic modulus; Damping ratio; Cement stabilization; Empirical formula

Funding

  1. National Natural Science Foundation of China [51578214]
  2. Transformation Program of Scientific and Technological Achievements of Jiangsu Province, China [2021QD07]

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This study investigates the dynamic behavior of cement-stabilized soil with and without super-absorbent polymer (SAP) through consolidated undrained cyclic triaxial shear tests. The results show that SAP can improve the dynamic characteristics of soil, mitigate brittle failure, and reduce the negative impact on superstructures under cyclic loading.
Silty clay with a high water content is a kind of soft soil widely distributed in the middle and lower reaches of the Yangtze River, China. Based on environmental protection and engineering requirements, cement combined with super-absorbent-polymer (SAP) stabilized soil is often used. However, the dynamic behaviors of cement -stabilized soil with SAPs are not well studied at present. In this study, a series of consolidated undrained cy-clic triaxial shear tests were conducted on cement-stabilized soil with and without SAPs, and the effects of the effective stress, cyclic stress ratio (CSR), and cyclic number of cycles on the dynamic behaviors were studied. The results show that the SAP can increase the dynamic elastic modulus (about 10.5%) and damping ratio (about 11.2%) of cement-stabilized soil, and improve the brittle failure and negative impact on superstructures of cement-stabilized soil under cyclic loading. The influence of the CSR on the dynamic elastic modulus and damping ratio of cement-stabilized soil with SAPs has thresholds, and relevant empirical formulas are estab-lished. These can be used to predict the distribution of dynamic stress and evaluate the influence of environ-mental vibrations.

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