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Laboratory and numerical experiments on pressure relief mechanism of large-diameter boreholes

JIA Chuan-yang 1,2, JIANG Yu-jing 1, ZHANG Xue-peng 1,3, WANG Dong 1, LUAN Heng-jie 1, WANG Chang-sheng 1,3 · Editorial Office of Chinese Journal of Geotechnical Engineering · 2017

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The technology of borehole pressure relief is an effective way to reduce the elastic energy accumulation in the surrounding rock of roadways, which can reduce the risk of regional rock bursts. Therefore, the studies on the pressure relief mechanism of large-diameter boreholes and the corresponding reasonable parameters are of high engineering application value. A series of laboratory experiments are conducted to analyze the effects of different parameters such as borehole radius, spacing and depth on the uni-axial compression strength (UCS) and failure patterns of samples. The particle flow code (PFC) is used to quantify the micro-cracks and simulate their corresponding propagation process. The laboratory and numerical results show that the stress release resulting from propagation and coalescence of micro-cracks is the basic reason for the pressure relief around the surrounding rock of boreholes. The micro-cracks around the surrounding rock increase with the increase of radius and depth of boreholes, and the main crack becomes much more serious, resulting in larger pressure relief. In addition, as the borehole spacing decreases, UCS of samples decreases and the corresponding failure pattern changes from independent one to transfixing one, leading to a much more obvious pressure relief effect.

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APA 7

JIA Chuan-yang 1, 2. J. Y. J. 1. Z. X. P. 1. W. D. 1. L. H. J. 1. W. C. S. 1. (2017). Laboratory and numerical experiments on pressure relief mechanism of large-diameter boreholes. https://doi.org/10.11779/CJGE201706018

MLA

JIA Chuan-yang 1, 2, JIANG Yu-jing 1, ZHANG Xue-peng 1,3, WANG Dong 1, LUAN Heng-jie 1, WANG Chang-sheng 1,3. "Laboratory and numerical experiments on pressure relief mechanism of large-diameter boreholes." 2017. https://doi.org/10.11779/CJGE201706018.

Chicago

JIA Chuan-yang 1, 2, JIANG Yu-jing 1, ZHANG Xue-peng 1,3, WANG Dong 1, LUAN Heng-jie 1, WANG Chang-sheng 1,3. 2017. "Laboratory and numerical experiments on pressure relief mechanism of large-diameter boreholes.". https://doi.org/10.11779/CJGE201706018.

Harvard

JIA Chuan-yang 1, 2. J. Y. J. 1. Z. X. P. 1. W. D. 1. L. H. J. 1. W. C. S. 1. 2017, Laboratory and numerical experiments on pressure relief mechanism of large-diameter boreholes, Editorial Office of Chinese Journal of Geotechnical Engineering, available at: https://doi.org/10.11779/CJGE201706018 [Accessed 29 Jun. 2026].

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Título
Laboratory and numerical experiments on pressure relief mechanism of large-diameter boreholes
Autor / colaboradores
JIA Chuan-yang 1,2, JIANG Yu-jing 1, ZHANG Xue-peng 1,3, WANG Dong 1, LUAN Heng-jie 1, WANG Chang-sheng 1,3
Editorial
Editorial Office of Chinese Journal of Geotechnical Engineering
Año de publicación
2017
ISSN
1000-4548
ISSN
1000-4548
Idioma
eng

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