Numerical simulation of two-hole blasting using numerical manifold method

Tao Huang; Peng Wan Chen; Guo Xin Zhang; Jun Yang

Numerical simulation of two-hole blasting using numerical manifold method

Tao Huang^*
, Peng Wan Chen
, Guo Xin Zhang
, Jun Yang

^*Corresponding author for this work

School of Material Science and Engineering

Beijing Institute of Technology
Chinese Academy of Water Resources and Hydropower Research

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

Based on the fundamental theories of numerical manifold method (NMM), a criterion of crack initiation and crack growth is introduced into NMM. NMM is used to numerically study the process of two-hole blasting, in which two different initiation conditions are considered. One is simultaneous initiation, the other is 0.1 ms delay initiation. The whole blasting process is simulated, including crack initiation, crack growth, the formation of fragments and the formation of a blasting crater. The failure mechanisms of rock under blasting loading and the influences of initiation conditions on that process are analyzed, NMM has proven to be an effective and accurate method in the study of rock failure from a continuous mass to a discontinuous mass. The results provide further insights and a new method in the research of the related issues.

Original language	English
Pages (from-to)	434-440
Number of pages	7
Journal	Baozha Yu Chongji/Expolosion and Shock Waves
Volume	26
Issue number	5
Publication status	Published - Sept 2006

Keywords

Mechanics of explosion
Numerical manifold method
Numerical simulation
Process of rock failure
Shock loading
Two-hole blasting

Cite this

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title = "Numerical simulation of two-hole blasting using numerical manifold method",

abstract = "Based on the fundamental theories of numerical manifold method (NMM), a criterion of crack initiation and crack growth is introduced into NMM. NMM is used to numerically study the process of two-hole blasting, in which two different initiation conditions are considered. One is simultaneous initiation, the other is 0.1 ms delay initiation. The whole blasting process is simulated, including crack initiation, crack growth, the formation of fragments and the formation of a blasting crater. The failure mechanisms of rock under blasting loading and the influences of initiation conditions on that process are analyzed, NMM has proven to be an effective and accurate method in the study of rock failure from a continuous mass to a discontinuous mass. The results provide further insights and a new method in the research of the related issues.",

keywords = "Mechanics of explosion, Numerical manifold method, Numerical simulation, Process of rock failure, Shock loading, Two-hole blasting",

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T1 - Numerical simulation of two-hole blasting using numerical manifold method

AU - Huang, Tao

AU - Chen, Peng Wan

AU - Zhang, Guo Xin

AU - Yang, Jun

PY - 2006/9

Y1 - 2006/9

N2 - Based on the fundamental theories of numerical manifold method (NMM), a criterion of crack initiation and crack growth is introduced into NMM. NMM is used to numerically study the process of two-hole blasting, in which two different initiation conditions are considered. One is simultaneous initiation, the other is 0.1 ms delay initiation. The whole blasting process is simulated, including crack initiation, crack growth, the formation of fragments and the formation of a blasting crater. The failure mechanisms of rock under blasting loading and the influences of initiation conditions on that process are analyzed, NMM has proven to be an effective and accurate method in the study of rock failure from a continuous mass to a discontinuous mass. The results provide further insights and a new method in the research of the related issues.

AB - Based on the fundamental theories of numerical manifold method (NMM), a criterion of crack initiation and crack growth is introduced into NMM. NMM is used to numerically study the process of two-hole blasting, in which two different initiation conditions are considered. One is simultaneous initiation, the other is 0.1 ms delay initiation. The whole blasting process is simulated, including crack initiation, crack growth, the formation of fragments and the formation of a blasting crater. The failure mechanisms of rock under blasting loading and the influences of initiation conditions on that process are analyzed, NMM has proven to be an effective and accurate method in the study of rock failure from a continuous mass to a discontinuous mass. The results provide further insights and a new method in the research of the related issues.

KW - Mechanics of explosion

KW - Numerical manifold method

KW - Numerical simulation

KW - Process of rock failure

KW - Shock loading

KW - Two-hole blasting

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M3 - Article

AN - SCOPUS:33845805784

SN - 1001-1455

VL - 26

SP - 434

EP - 440

JO - Baozha Yu Chongji/Expolosion and Shock Waves

JF - Baozha Yu Chongji/Expolosion and Shock Waves

IS - 5

ER -

Numerical simulation of two-hole blasting using numerical manifold method

Abstract

Keywords

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