Multi-scale deformation characteristics and mechanism of red-bed mudstone in dry-wet environment

Yu, Fei; Tong, Kaiwen; Fu, Zhenghao; Feng, Gao-shun; Zhou, Zhe; Chen, Shanxiong; Dai, Zhangjun

doi:10.3389/feart.2022.974707

Cited by 9 publications

(2 citation statements)

References 39 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Chen [ 22 – 24 ] presented the quantitative distribution of full-scale pores inside fine sandstone by CT technology, and their conclusion can be used to evaluate its permeability and reservoir quality. Yu [ 25 ] clarified the inner relationship between deformation and structural characteristics using X-ray CT scanning, MIP (mercury intrusion porosimetry) and BET (low temperature nitrogen adsorption). Wei [ 26 ] and Li [ 27 ] used CT technology to quantitatively analyze the pores and fractures in shale and lamellar shale.…”

Section: Introductionmentioning

confidence: 99%

Analysis of strength failure in gangue-based cementitious backfill body from a microscopic perspective

Wang,

Gao

et al. 2024

PLoS ONE

View full text Add to dashboard Cite

Backfill mining is an effective way to solve environment pollute, surface subsidence, and groundwater system damage which caused by coal mining. However, the complex underground environment may change the physical and mechanical properties of the backfill body, which poses a risk of strength failure. This paper analyzed the failure of gangue-based cemented backfill body which made up of gangue and fly ash. The results show that physicochemical reactions will generate quartz, kaolinite, and other high-strength substances; hydration reaction between the fine particles will generate hydrocalcium silicate and other C-S-H gels, they wrapped gangues as a whole, which provide a high strength of the cemented backfill body. Several experiments were carried out in order to find the reason for failure in samples under loads. The conclusion drawn as following: (1) When the load is large, the cracks extend from the surface of the samples to the interior, at the same time, the length and width of the cracks increasing obviously and connecting as net. Especially the external load exceeds the peak intensity. (2) The relationship between sample failure and pores is weak, but obvious with crack development, especially the cracks connected as a net. (3) The interface structure formed by gangue is an important source of crack development and, thus, will stimulate the development of cracks.

show abstract

Section: Introductionmentioning

confidence: 99%

Analysis of strength failure in gangue-based cementitious backfill body from a microscopic perspective

Wang,

Gao

et al. 2024

PLoS ONE

View full text Add to dashboard Cite

show abstract

“…Due to their non-destructive, intuitive, fast and accurate nature, 1 H nuclear magnetic resonance (NMR) and X-ray computed tomography (CT) techniques have been widely applied to characterize the morphology and structure of various porous materials such as shale, sandstone, cement, silica, zeolite and composite fibers [25][26][27]. So far, milestones have been achieved in the observation of soil structure, quantitative description of particles and extraction of pore features by CT scanning [28][29][30][31], but there are still some challenges in reconstructing a 3-D soil-water model. In particular, this is especially critical to clarify the geometric shape, quantitative ratio and spatial distribution of liquid water inside the pores during a wetting-drying process.…”

Section: Introductionmentioning

confidence: 99%

Experimental study on the microscopic swelling-shrinking mechanisms of clay-sand mixtures from wetting to drying

Tong,

Pereira,

Huang

et al. 2023

Preprint

Self Cite

View full text Add to dashboard Cite

Micro-computed tomography and low-field nuclear magnetic technologies were employed to investigate the evolution of the water occurrence and particle behaviors of the montmorillonite-kaolinite-quartz sand mixtures along a wetting-drying cycle. During the wetting-drying process, the total saturation was linearly related to the sample height. The cutoff values between the adsorbed water, capillary water and bulk water were roughly determined as 2.5 ms and 50 ms, respectively. In the wetting stage, the swelling under lower water content was dominated by adsorbed water, but it mainly depended on the linear increase in capillary water under higher water content. In the drying stage, the water distribution along the height was divided into apparent dry region, capillary flow region and saturated region. With continuous drying, the first region gradually expanded and the second reduced. Compared with nondeformable porous media, the range of them was smaller. If further dried to 5% water content, there will be only adsorbed water. The capillary water content was found to be linear with the sample height during drying. Consequently, the inconsistency of swelling-shrinkage deformations was mainly attributed to the hysteresis of capillary water. This work will provide basic experimental data and guidance for the subsequent simulations and theoretical model.

show abstract

Experimental study of the dehydration-shrinkage characteristics of red-bedded mudstone in Central Sichuan under different humidity gradients

Yu,

Cao,

Geng

et al. 2024

Bull Eng Geol Environ

View full text Add to dashboard Cite

Multi-scale deformation characteristics and mechanism of red-bed mudstone in dry-wet environment

Cited by 9 publications

References 39 publications

Analysis of strength failure in gangue-based cementitious backfill body from a microscopic perspective

Analysis of strength failure in gangue-based cementitious backfill body from a microscopic perspective

Experimental study on the microscopic swelling-shrinking mechanisms of clay-sand mixtures from wetting to drying

Experimental study of the dehydration-shrinkage characteristics of red-bedded mudstone in Central Sichuan under different humidity gradients

Contact Info

Product

Resources

About