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Healing behaviour of desiccation cracks in a clayey soil subjected to different wetting rates
Abstract Desiccation cracks initiate and propagate during the drying process and healing occurs during the wetting process. However, most of the previous studies only paid attention to the drying-induced crack propagation and the wetting-induced healing behaviour was always neglected. In this paper, a series of wetting tests were conducted on cracked soils under different wetting rates. The crack pattern evolution during wetting was recorded and quantitatively analysed. The results show that the narrow and short secondary and tertiary cracks heal earlier than the long and wide primary cracks during wetting. With the elapsed wetting time, the surface crack ratio and average crack width decrease slowly at first, then rapidly decrease and eventually stabilise. However, at the early stage of wetting, the total crack length almost remains constant. The healing of desiccation cracks in clayey soils is mainly attributed by two factors: wetting-induced swelling and disintegration. Furthermore, the healing degree of desiccation cracks become higher with increasing wetting rate. The healing of desiccation cracks with a lower wetting rate is mainly due to the wetting-induced swelling of soils. However, that with a higher wetting rate is dominated by both swelling and disintegration.
Highlights The evolution of soil cracks subjected to various wetting rates was investigated. The healing degree of desiccation cracks became higher with increasing wetting rate. Wetting-induced crack healing at a low wetting rate is mainly due to soil swelling. Both swelling and disintegration dominate the crack healing at a higher wetting rate.
Healing behaviour of desiccation cracks in a clayey soil subjected to different wetting rates
Abstract Desiccation cracks initiate and propagate during the drying process and healing occurs during the wetting process. However, most of the previous studies only paid attention to the drying-induced crack propagation and the wetting-induced healing behaviour was always neglected. In this paper, a series of wetting tests were conducted on cracked soils under different wetting rates. The crack pattern evolution during wetting was recorded and quantitatively analysed. The results show that the narrow and short secondary and tertiary cracks heal earlier than the long and wide primary cracks during wetting. With the elapsed wetting time, the surface crack ratio and average crack width decrease slowly at first, then rapidly decrease and eventually stabilise. However, at the early stage of wetting, the total crack length almost remains constant. The healing of desiccation cracks in clayey soils is mainly attributed by two factors: wetting-induced swelling and disintegration. Furthermore, the healing degree of desiccation cracks become higher with increasing wetting rate. The healing of desiccation cracks with a lower wetting rate is mainly due to the wetting-induced swelling of soils. However, that with a higher wetting rate is dominated by both swelling and disintegration.
Highlights The evolution of soil cracks subjected to various wetting rates was investigated. The healing degree of desiccation cracks became higher with increasing wetting rate. Wetting-induced crack healing at a low wetting rate is mainly due to soil swelling. Both swelling and disintegration dominate the crack healing at a higher wetting rate.
Healing behaviour of desiccation cracks in a clayey soil subjected to different wetting rates
Tian, Ben-Gang (author) / Cheng, Qing (author) / Tang, Chao-Sheng (author) / Shi, Bin (author)
Engineering Geology ; 313
2022-12-19
Article (Journal)
Electronic Resource
English
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