Creep damage behaviors of red sandstone subjected to uniaxial compression after high‐temperature heat treatment using acoustic emission technology

Pan, Xiao; Berto, Filippo; Zhou, Xiaoping

doi:10.1111/ffe.13605

Cited by 18 publications

(17 citation statements)

References 48 publications

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“…A detailed understanding of the compressive behavior of granite under environments of high temperature and water is critical for deep underground exploration and engineering, especially the understanding of granite, a deep hard bedrock faced commonly in the underground engineering. It is considered as the target formation for deep geothermal energy projects and host rock for nuclear waste disposals 1,2 . The understanding, on the one hand, is beneficial for optimizing the design to improve the efficiency of drilling technologies, such as hydraulic fracturing, thermal spallation drilling, or blasting 11,12 for exploring geothermal energy; on the other hand, it has great significance for designing structures within the rock of nuclear waste disposals projects.…”

Section: Introductionmentioning

confidence: 99%

“…With the increasing energy demand, exploring resources at a significant depth to access geothermal, 1,2 underground coal gasification, [3][4][5] and minerals, as well as storing nuclear waste deep underground, attracts increasing attention. 1,[5][6][7][8] The deep underground has some completely different environmental characteristics, compared with shallow layers, for example, the high temperature rising by 0.3-0.4 C/km 9 and the widely distributed groundwater.…”

Section: Introductionmentioning

confidence: 99%

“…It is considered as the target formation for deep geothermal energy projects and host rock for nuclear waste disposals. 1,2 The understanding, on the one hand, is beneficial for optimizing the design to improve the efficiency of drilling technologies, such as hydraulic fracturing, thermal spallation drilling, or blasting 11,12 for exploring geothermal energy; on the other hand, it has great significance for designing structures within the rock of nuclear waste disposals projects.…”

Section: Introductionmentioning

confidence: 99%

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Saturated water‐weakening effects on the compressive behavior of thermally damaged granite

Zhao

et al. 2022

Fatigue Fract Eng Mat Struct

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A detailed understanding of the compressive behavior of granite under environments of high temperature and water is critical for deep resource exploitation. In this study, uniaxial compressive strength tests were conducted on dry and water-saturated granite with thermal damage at room temperature. A new phenomenon was discovered: With the increase of thermal damage degree of granite at different heat-treatment temperatures, the saturated water-induced weakening effects on the stress thresholds representing each crack development stage of granite present an obvious non-monotonic trend. Of the saturated water-induced weakening effects, 500 C is the key point, where the abrupt change occurs and the attenuation of compressive strength (peak stress) attains the maximum, reaching 41.77%. Further, the corresponding phenomenon was attributed to the form transformation of microcracks near 500 C based on the microstructural analysis. This study enriches the understanding of rock behavior deep underground and can provide a guide for more efficient hydraulic fracturing in deep resource exploitation, as well as the long-term safe and stable use of nuclear waste disposal projects within the granite.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Saturated water‐weakening effects on the compressive behavior of thermally damaged granite

Zhao

et al. 2022

Fatigue Fract Eng Mat Struct

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“…In addition, previous studies have found that the creep characteristics of sandstone is affected by many external factors, such as confining pressure, [7][8][9] temperature, [10][11][12] water content, [13][14][15] and pore pressure. [16][17][18] Pan et al 19 investigated the influence of high temperature on the creep damage behaviors of red sandstone. They found that temperature has an obvious influence on uniaxial compressive strength, Young's modulus, and failure modes of red sandstone.…”

Section: Introductionmentioning

confidence: 99%

Experimental study on triaxial creep behavior of red sandstone under different pore pressures based on ultrasonic measurement

Zhou

Shen

Berto

2022

Fatigue Fract Eng Mat Struct

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Creep behavior of red sandstone under different pore pressures with a high temperature and confining pressure condition is studied in this paper. Ultrasonic detection method is used to monitor the variation of S wave in the creep test. The attenuation coefficient and S-wave velocity in the creep process are analyzed. Fast Fourier transform is used to analyze the variation of amplitude in peak frequency and four main frequencies. The experimental results show that the creep deformation increases with increasing pore pressure for a given deviatoric stress, and the S-wave velocity and attenuation coefficient decrease with increasing pore pressure. The relationship between creep strain and damage of the sample is established. It is found that the increase of pore pressure accelerates the increased rate of sample damage. Frequency spectrum analysis shows that the generation and development rate of microcracks increases with increasing pore pressure. The research can provide a theoretical basis for mining of deep mineral resources and the structural stability analysis of deep underground engineering.

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“…In order to improve the safety of underground filling mining areas, a lot of research on the mechanical properties, loss and failure characteristics of rock and backfill have been carried out world widely [4][5][6][7]. In terms of rock damage and failure, many scholars have analyzed the damage evolution in the process of rock deformation, and failure through experimental means and established constitutive models [8][9][10][11]. Bustamante et al [12] proposed a nonlinear constitutive relation to simulate the properties of sandstone and studied the compressional and shear wave properties of rock under compression, finding that the compressional wave velocity is related to the compressive load.…”

Section: Introductionmentioning

confidence: 99%

Experimental and Analytical Investigation into the Synergistic Mechanism and Failure Characteristics of the Backfill-Red Sandstone Combination

et al. 2022

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The stability of underground goaf in filling mining is dominated by the interaction mechanism of the backfill-surrounding rock combination. In order to investigate the interaction mechanism and failure characteristics of the backfill-surrounding rock combination, backfill-red sandstone combinations with three different cement–sand ratios were prepared for uniaxial compression tests. The deformation and failure characteristics of the specimens were analyzed. It was found that at the cement–sand ratio of 1:4, the backfill and red sandstone interacted with and restricted each other, and the through cracks appeared in the whole specimens, which indicated that the backfill and red sandstone can jointly resist external loads and play a role in common bearing. However, with the decrease of the cement–sand ratio, the stress mainly acts on the backfill, and the deformation observed in the backfill is large while there is no obvious rupture in the rock. Based on the failure characteristics and the stress–strain curves of the specimens, the damage constitutive relationship that can describe the failure process and deformation characteristics is proposed. Correlated with the experiment results, the damage constitutive equation is established in three stages including compaction pre-synergy stage, quasi-elastic synergy deformation stage and rupture deformation stage. The failure characteristics observed in each stage are analyzed. The research results are of great significance to accurately understanding the interaction between backfill and surrounding rock, which can be used to design and select the mixture ratio of the filling materials.

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Creep damage behaviors of red sandstone subjected to uniaxial compression after high‐temperature heat treatment using acoustic emission technology

Cited by 18 publications

References 48 publications

Saturated water‐weakening effects on the compressive behavior of thermally damaged granite

Saturated water‐weakening effects on the compressive behavior of thermally damaged granite

Experimental study on triaxial creep behavior of red sandstone under different pore pressures based on ultrasonic measurement

Experimental and Analytical Investigation into the Synergistic Mechanism and Failure Characteristics of the Backfill-Red Sandstone Combination

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