Experimental study of the improvement of surrounding soils due to the grouting with a geotextile

Zhang, Sheng; Liu, Wei; Ye, Xinyu; Li, Yu; Shi, Yifan; Wang, Shanyong

Title: Experimental study of the improvement of surrounding soils due to the grouting with a geotextile
Creator: Zhang, Sheng; Liu, Wei; Ye, Xinyu; Li, Yu; Shi, Yifan; Wang, Shanyong
Relation: Acta Geotechnica Vol. 18, p. 5011-5027
Publisher Link: http://dx.doi.org/10.1007/s11440-023-01855-y
Publisher: Springer
Resource Type: journal article
Date: 2023
Description: In an anchor support system, once the soil strength is improved by grouting with a geotextile, the pull-out force of anchors increases. To investigate the improvement of surrounding soils due to the grouting with a geotextile, a series of filtration and penetration tests under various parameters such as different initial degrees of compaction, water content and soil types were conducted via a self-developed device. In addition, microscopic tests were then carried out to obtain the soil’s structure before and after grouting. The main conclusions are as follows: (1) The strength of surrounding soils is improved by grouting with a geotextile through the compaction effect and the slurry infiltration, while its strengthening effect gradually declines with the increase in the initial degree of compaction. (2) As the initial water content increases, the strengthening effect derived from the compaction effect and the cohesive substances infiltration decreases, while this improved efficiency of the soil strength declines due to the water infiltration during grouting. (3) Although the effect of grouting with a geotextile on different soils is obviously different due to the different efficiency of slurry (i.e., water and cohesive substances) infiltration, it can improve the soil strength regardless of soil type, especially for sandy soils. (4) Under the filtration of geotextile, a hardened layer is formed at the grout–soil interface due to the accumulation of cohesive substances, which is beneficial to the performance improvement in applications such as the capsule-type anchor.
Subject: cohesive substances; compaction effect; geotextile; grouting; soil strength; water infiltration
Identifier: http://hdl.handle.net/1959.13/1493319
Identifier: uon:53542
Identifier: ISSN:1861-1125
Language: eng
Reviewed

Hits: 1813
Visitors: 1773
Downloads: 0

		Thumbnail	File	Description	Size	Format