Effect of Tea Waste on Cracking of Foundation Soil

Yang, Binbin and Zhang, Zepeng and Ma, Wenlong and Hu, Mingming and Zhang, Yaning and Wang, Yonghong (2021) Effect of Tea Waste on Cracking of Foundation Soil. Advances in Materials Science and Engineering, 2021. pp. 1-7. ISSN 1687-8434

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Abstract

Desiccation cracks form on the surface of foundation soils due to matric suction and surface shrinkage with water loss. This paper investigates the effect of tea waste on the change of water content and cracking characteristics of foundation soil during drying. Digital image processing was carried out based on laboratory experiments. The characteristics are monitored with a variation in water content. The effects of different amounts of tea waste on soil drying and cracking were obtained, in order to provide an efficient and new green sustainable material for improving soil evaporation cracking under drought conditions. The results show that the development of cracks of soil samples with tea waste can be categorized into three stages in accordance with the fractal dimension of the desiccation cracks: Stages I, II, and III. The desiccation cracks in Stage III are wider and longer than those in Stages I and II, however, the maximum fractal dimension and stability are also obtained in Stage III. The residual water content of the sample without tea waste is 1.5%. The residual water content of the samples containing 4% and 8% tea waste is 4.6% and 5.4%, respectively, which shows that the tea waste can effectively improve the residual water content of the foundation soil and the water holding capacity of the soil. The fractal dimension of cracks on the soil samples increases gradually with drying. The total length of cracks increases and the development of cracks is more complex. The cracking time of soil samples with different tea waste contents is different. The soil samples with 8% tea waste content crack first. Combined with the variation characteristics of water content, tea waste has water absorption and improves the water holding capacity and stability of foundation soil.

Item Type: Article
Subjects: Science Repository > Materials Science
Depositing User: Managing Editor
Date Deposited: 06 Jan 2023 07:58
Last Modified: 27 Feb 2024 04:01
URI: http://research.manuscritpub.com/id/eprint/504

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