Influences of the burden on the fracture behaviour of rocks by using electric explosion of wires

Influences of the burden on the fracture behaviour of rocks by using electric explosion of wires

•An electric explosion method is used for blasting experiments under different burdens.•Crack initiation and propagation under different burdens are observed.•Fracture characteristics within the samples are discussed through simulation. The burden is one of the most important parameters in the blast...

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Veröffentlicht in:Theoretical and applied fracture mechanics 2022-04, Vol.118, p.103270, Article 103270
Hauptverfasser: Peng, Jianyu, Wang, Xiulong, Zhang, Fengpeng, Yang, Xiaohui, Gao, Jikai
Format: Artikel
Sprache:eng
Schlagworte:
Blasting (explosive)
Burden
CAD
Computer aided design
Computer simulation
Crack initiation
Crack propagation
Damage patterns
Electric explosion of wire
Explosions
Finite element method
Fractured zone
Fractures
Fracturing
High speed cameras
Mortars (material)
Rocks
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container_title Theoretical and applied fracture mechanics
container_volume 118
creator Peng, Jianyu
Wang, Xiulong
Zhang, Fengpeng
Yang, Xiaohui
Gao, Jikai
description •An electric explosion method is used for blasting experiments under different burdens.•Crack initiation and propagation under different burdens are observed.•Fracture characteristics within the samples are discussed through simulation. The burden is one of the most important parameters in the blasting operation of rock engineering, so it is essential to evaluate its influences on the fracture behaviours of rocks. In this work, blasting experiments on cement mortar samples were conducted with different burdens by taking the electric explosion of wires as the explosion source. Then, the fracture process of samples was revealed based on images captured by an ultra-high-speed camera. Changes in the scope of the fractured zone with the burden were quantitatively evaluated. Experimental results indicate that fractures on the free face are composed of transverse, longitudinal, oblique, and circular cracks. As the burden increases, the initiation time of cracks on the surface delays, accompanied by a decreased degree of fracturing on the free face. Meanwhile, the explosive load causes formation of a crater-shaped fractured zone in the samples. With the increase of the burden, the short axis, perimeter, and volume of the fractured zone all tend to increase, then decrease. The finite element program ANSYS/LSDYNA was used to perform numerical simulations. The simulation results were compared with the fracture mode of the free face and the fractured zone in samples in the experiments. Besides, the damage and fracturing patterns inside the samples were further investigated based on the numerical simulation results.
doi_str_mv 10.1016/j.tafmec.2022.103270
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The burden is one of the most important parameters in the blasting operation of rock engineering, so it is essential to evaluate its influences on the fracture behaviours of rocks. In this work, blasting experiments on cement mortar samples were conducted with different burdens by taking the electric explosion of wires as the explosion source. Then, the fracture process of samples was revealed based on images captured by an ultra-high-speed camera. Changes in the scope of the fractured zone with the burden were quantitatively evaluated. Experimental results indicate that fractures on the free face are composed of transverse, longitudinal, oblique, and circular cracks. As the burden increases, the initiation time of cracks on the surface delays, accompanied by a decreased degree of fracturing on the free face. Meanwhile, the explosive load causes formation of a crater-shaped fractured zone in the samples. With the increase of the burden, the short axis, perimeter, and volume of the fractured zone all tend to increase, then decrease. The finite element program ANSYS/LSDYNA was used to perform numerical simulations. The simulation results were compared with the fracture mode of the free face and the fractured zone in samples in the experiments. 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The burden is one of the most important parameters in the blasting operation of rock engineering, so it is essential to evaluate its influences on the fracture behaviours of rocks. In this work, blasting experiments on cement mortar samples were conducted with different burdens by taking the electric explosion of wires as the explosion source. Then, the fracture process of samples was revealed based on images captured by an ultra-high-speed camera. Changes in the scope of the fractured zone with the burden were quantitatively evaluated. Experimental results indicate that fractures on the free face are composed of transverse, longitudinal, oblique, and circular cracks. As the burden increases, the initiation time of cracks on the surface delays, accompanied by a decreased degree of fracturing on the free face. Meanwhile, the explosive load causes formation of a crater-shaped fractured zone in the samples. 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source Elsevier ScienceDirect Journals
subjects Blasting (explosive)
Burden
CAD
Computer aided design
Computer simulation
Crack initiation
Crack propagation
Damage patterns
Electric explosion of wire
Explosions
Finite element method
Fractured zone
Fractures
Fracturing
High speed cameras
Mortars (material)
Rocks
title Influences of the burden on the fracture behaviour of rocks by using electric explosion of wires
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