An effective 3D meshing approach for fractured rocks

Liu, Yan; Xing, Huilin

doi:10.1002/nme.5166

Numerical Meth Engineering

2015

DOI: 10.1002/nme.5166

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An effective 3D meshing approach for fractured rocks

Yan Liu

Huilin Xing

Abstract: SUMMARYAn effective mesh generation algorithm is proposed to construct mesh representations for arbitrary fractures in 3D rock masses. With the development of advanced imaging techniques, fractures in a rock mass can be clearly captured by a high-resolution 3D digital image but with a huge data set. To reduce the data size, corresponding mesh substitutes are required in both visualization and numerical analysis. Fractures in rocks are naturally complicated. They may meet at arbitrary angles at junctions, which… Show more

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2020

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Direct modifications of tetrahedral meshes

Guo

Hai

Liu

2020

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Purpose During the industrial design process, a product is usually modified and analyzed repeatedly until reaching the final design. Modifying the model and regenerating a mesh for every update during this process is very time consuming. To improve efficiency, it is necessary to circumvent the computer-aided design modeling stage when possible and directly modify the meshes to save valuable time. The purpose of this paper is to develop a method for mesh modifications. Design/methodology/approach In contrast to existing studies, which focus on one or a class of modifications, this paper comprehensively studies mesh union, mesh gluing, mesh cutting and mesh partitioning. To improve the efficiency of the method, the paper presents a fast and effective surface mesh remeshing algorithm based on a ball-packing method and controls the remeshing regions with a size field. Findings Examples and results show that the proposed mesh modification method is efficient and effective. The proposed method can be also applied to meshes with different material properties, which is very different with previous work that is only suitable for the meshes with same material property. Originality/value This paper proposes an efficient and comprehensive tetrahedral mesh modification method, through which engineers can directly modify meshes instead of models and save time.

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Direct modifications of tetrahedral meshes

Guo

Hai

Liu

2020

View full text Add to dashboard Cite

show abstract

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An effective 3D meshing approach for fractured rocks

Cited by 1 publication

References 43 publications

Direct modifications of tetrahedral meshes

Direct modifications of tetrahedral meshes

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