Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass
Fracture characteristics have a significant effect on the mechanical and hydraulic properties of rock mass. In this paper, before modeling a discrete fracture network, the fracture is simplified as a non-similar ellipse. First, the multifactor coupling stereological relationship of the sampling trac...
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sg-ntu-dr.10356-1725732023-12-13T05:35:22Z Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass Xiao, Kun Zhang, Ru Xie, Jing Ren, Li Gao, Mingzhong. Zhang, Zetian Lou, Chendi Ai, Ting Zha, Ersheng Asian School of the Environment Engineering::Civil engineering Elliptical Fractures Fracture Size Distribution Fracture characteristics have a significant effect on the mechanical and hydraulic properties of rock mass. In this paper, before modeling a discrete fracture network, the fracture is simplified as a non-similar ellipse. First, the multifactor coupling stereological relationship of the sampling trace length distribution is established, which proves that the trace length distribution is independent of the fracture occurrence distribution. Using the Volterra integral equation method, the stereological formula of the trace length is inversely solved to obtain the distribution expressions of the major axis and axial ratio of the elliptical fractures. The analytical solutions of the probability density function (PDF) of the characteristic size of the elliptical fractures are derived for cases in which the trace length follows a uniform distribution, fractal distribution, and polynomial distribution. Second, for cases in which the trace length conforms to a negative exponential distribution, gamma distribution, chi-square distribution, and lognormal distribution, the statistical eigenvalues of the major axis and axial ratio of the elliptical fractures are deduced. Finally, a Monte Carlo statistical simulation is performed using the Rock Mass Joint Network Simulation (RJNS3D) toolkit to verify the applicability of the derivation process and the correctness of fitting a polynomial function to the trace length distribution to solve the PDF of the characteristic size of the elliptical fractures. The proposed method can better predict the distribution of the required parameters, such as the major axis and axial ratio of the elliptical fractures, according to the typical two-dimensional data in the sampling windows. This method can be further applied to reconstruct fracture networks in practical engineering tasks and lay a foundation for the analysis of rock mass strength and deformation, representative elementary volume (REV), seepage, and surrounding rock stability. This research was funded by the National Natural Science Foundation of China (No. U1965203 and 52004167), the China Postdoctoral Science Foundation (No. 2021T140485) and the Open Foundation of MOE Key Laboratory of Deep Underground Science and Engineering (No. DESEYU202201). 2023-12-13T05:26:07Z 2023-12-13T05:26:07Z 2023 Journal Article Xiao, K., Zhang, R., Xie, J., Ren, L., Gao, M., Zhang, Z., Lou, C., Ai, T. & Zha, E. (2023). Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass. Rock Mechanics and Rock Engineering, 56(6), 3927-3948. https://dx.doi.org/10.1007/s00603-023-03263-w 0723-2632 https://hdl.handle.net/10356/172573 10.1007/s00603-023-03263-w 2-s2.0-85149015652 6 56 3927 3948 en Rock Mechanics and Rock Engineering © 2023 The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature. All rights reserved. |
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Engineering::Civil engineering Elliptical Fractures Fracture Size Distribution Xiao, Kun Zhang, Ru Xie, Jing Ren, Li Gao, Mingzhong. Zhang, Zetian Lou, Chendi Ai, Ting Zha, Ersheng Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass |
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Fracture characteristics have a significant effect on the mechanical and hydraulic properties of rock mass. In this paper, before modeling a discrete fracture network, the fracture is simplified as a non-similar ellipse. First, the multifactor coupling stereological relationship of the sampling trace length distribution is established, which proves that the trace length distribution is independent of the fracture occurrence distribution. Using the Volterra integral equation method, the stereological formula of the trace length is inversely solved to obtain the distribution expressions of the major axis and axial ratio of the elliptical fractures. The analytical solutions of the probability density function (PDF) of the characteristic size of the elliptical fractures are derived for cases in which the trace length follows a uniform distribution, fractal distribution, and polynomial distribution. Second, for cases in which the trace length conforms to a negative exponential distribution, gamma distribution, chi-square distribution, and lognormal distribution, the statistical eigenvalues of the major axis and axial ratio of the elliptical fractures are deduced. Finally, a Monte Carlo statistical simulation is performed using the Rock Mass Joint Network Simulation (RJNS3D) toolkit to verify the applicability of the derivation process and the correctness of fitting a polynomial function to the trace length distribution to solve the PDF of the characteristic size of the elliptical fractures. The proposed method can better predict the distribution of the required parameters, such as the major axis and axial ratio of the elliptical fractures, according to the typical two-dimensional data in the sampling windows. This method can be further applied to reconstruct fracture networks in practical engineering tasks and lay a foundation for the analysis of rock mass strength and deformation, representative elementary volume (REV), seepage, and surrounding rock stability. |
| author2 |
Asian School of the Environment |
| author_facet |
Asian School of the Environment Xiao, Kun Zhang, Ru Xie, Jing Ren, Li Gao, Mingzhong. Zhang, Zetian Lou, Chendi Ai, Ting Zha, Ersheng |
| format |
Article |
| author |
Xiao, Kun Zhang, Ru Xie, Jing Ren, Li Gao, Mingzhong. Zhang, Zetian Lou, Chendi Ai, Ting Zha, Ersheng |
| author_sort |
Xiao, Kun |
| title |
Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass |
| title_short |
Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass |
| title_full |
Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass |
| title_fullStr |
Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass |
| title_full_unstemmed |
Analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass |
| title_sort |
analytical solutions for the characteristic size distribution of the elliptical model in fractured rock mass |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/172573 |
| _version_ |
1787136743277854720 |