Sample size and span size diagram.

Sample size and span size diagram.

<div><p>To investigate the permeability enhancement effect of microorganisms (Methanogens) on anthracite and their impact on coal strength, static fracture tests were conducted on semi-circular SCB specimens with prefabricated cracks of varying angles after immersion in neutral and micro...

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Bibliographic Details
Main Author: Wen Wang (6570) (author)
Other Authors: Yuxiang Song (5181290) (author), Daping Xia (5730716) (author), Xiaowei Lu (2250892) (author), Songsong Guan (22574298) (author), Chuanjiu Zhang (22574301) (author), Yiwen Ju (3906127) (author)
Published: 2025
Subjects:
Biophysics
Physiology
Biotechnology
Ecology
Infectious Diseases
Chemical Sciences not elsewhere classified
Physical Sciences not elsewhere classified
test results show
permeability enhancement effect
loading direction diminished
circular scb specimens
static fracture tests
resist crack propagation
promoting tensile failure
different slit angles
different solution environments
prefabricated crack tip
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fracture toughness decreased
different fracture angles
fracture process zone
prefabricated angle cracks
prefabricated cracks
fracture toughness
varying angles
different stages
different solutions
solution environment
loading process
composite specimens
fracture process
shear failure
failure process
strain field
significant differences
evolution characteristics
displacement field
deformation characteristics
coal sample
2d techniques
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Summary:<div><p>To investigate the permeability enhancement effect of microorganisms (Methanogens) on anthracite and their impact on coal strength, static fracture tests were conducted on semi-circular SCB specimens with prefabricated cracks of varying angles after immersion in neutral and microbial solutions. The fracture process was monitored using digital image correlation DIC and VIC-2D techniques. The effects of different solutions and prefabricated angle cracks on the strength, deformation characteristics and fracture toughness of anthracite were analyzed. Simultaneously, the influence of the displacement field at the prefabricated crack tip of the coal sample during the failure process and the evolution characteristics of the strain field of the coal sample at different stages of the process were analyzed. The test results show that the composite specimens with different slit angles and different solution environments have significant differences in the loading process. The samples mainly experience tensile failure, with shear failure as a supplement. Fracture toughness decreased as the angle between the crack and loading direction diminished. In the microbial-solution environment, the ability of the samples to resist crack propagation is further reduced. Tensile deformation initiation occurred at 57.97 ~ 86.7% P<sub>max</sub> for neutral solutions and 36.36 ~ 60.52% P<sub>max</sub> for microbial solutions. Microbial solutions induced earlier crack tip tensile deformation, promoting tensile failure and extending the fracture process zone (FPZ) length.</p></div>

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