Numerical analysis of rock fracturing by gas pressure using the extended finite element method

Goodarzi, M.; Mohammadi, Soheil; Jafari, Arian

doi:10.1007/s12182-015-0017-x

Cited by 75 publications

(28 citation statements)

References 31 publications

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“…e two main stages of stress wave and high-pressure gas action during blasting are identified in the process of rock fracture caused by explosive blasting, which are helpful to crack propagation and rock breakage. e effect of stress wave is to produce initial crack, and high-pressure gas will lead to crack propagation [7][8][9]. e blasting mechanism of explosive and high-pressure gas is mainly different from the peak pressure and duration of stress wave [10].…”

Section: Introductionmentioning

confidence: 99%

Experimental Study on High‐Pressure Air Blasting Fracture for Coal and Rock Mass

Gao

Wang

Qin

et al. 2019

Advances in Civil Engineering

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In order to research on the issue of high-pressure gas blasting fracture deeply, a high-pressure gas blasting cracking experimental system was established; the effects of gas pressure and gas volume on the morphology of crack growth were studied; the p-t curve of pressure in the blasting process with time was obtained; and the mechanism of high-pressure gas blasting cracking was analyzed in this paper. The conclusion has shown that the stage of effect of high-pressure gas blasting on the test block includes three stages: the gas jet impact stage, the crack initiation and development stage, and the perforation fracture stage. In the design of gas pressure of 5 MPa, the experimental block only produces one longitudinal main crack. As the gas pressure increases to 7.5 MPa and 10 MPa, besides forming one longitudinal main crack, a transverse main crack is formed with further expanded 4–6 secondary cracks. In the same design of gas pressure regardless of volume size, each pressure variation stage has the same length, and the experimental block of the cracking pressure is basically the same. With the higher design pressure, the cracking pressure and the fracture pressure are higher. In the same design of gas pressure, with the larger gas volume, the fracture pressure required for the experimental block is smaller.

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Section: Introductionmentioning

confidence: 99%

Experimental Study on High‐Pressure Air Blasting Fracture for Coal and Rock Mass

Gao

Wang

Qin

et al. 2019

Advances in Civil Engineering

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“…Also, excessive damage of surrounding rock mass leads to frequent instabilities. Blast fragmentation has been widely investigated and some of notable research results are presented by Goodarzi et al (2015), Esen et al (2003), Cho and Kaneko (2004) and Lapcevic (2014b, 2016a). Excessive damage to surrounding rock mass is also one of the huge problems that occurs in underground mining since it impact the stability of the openings and stopes.…”

Section: Introductionmentioning

confidence: 99%

Optimization of ring blasting in sublevel stoping gold mine

Duranović¹,

Đokić²,

Lapčević³

et al. 2018

Podzemni radovi

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Important parameters that describe successful sublevel stoping operation are optimal fragmentation and low damage of rock mass around stopes. In current state of operation fragmentation of blasted material is not optimal since high percentage of fragments are oversized which requires additional sizing. Also, excessive damage of surrounding rock mass is found. By proposing new blasting pattern with slightly increased amount of drilling, but with decreased hole diameter decrease of explosive usage is obtained for more than 100kg. Along with better charge distribution it is expected that rock mass damage is to be decreased as well.

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“…Meanwhile, the presence of water can help guide the explosive shock waves, promote fracture propagation, avoid high temperature, and prevent hazards like sparks. In this technique, the blast-hole loading and sealing procedure is simplified and the explosive in blast holes can presplit hard coal and rock in a safer and more effective manner [22][23][24][25]. In this study, the technique of confined blasting in water-filled deep holes was applied to presplit the thick seam and hard roof in Datong Coal Mine area.…”

Section: Introductionmentioning

confidence: 99%

Application of Confined Blasting in Water-Filled Deep Holes to Control Strong Rock Pressure in Hard Rock Mines

Yang

2017

Energies

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Abstract:In extra-thick coal seams, mining operations can lead to large-scale disturbances, complex overburden structures, and frequent and strong strata behavior in the stope, which are serious threats to mine safety. This study analyzed the overburden structure and strata behavior and proposed the technique of confined blasting in water-filled deep holes as a measure to prevent strong rock pressure. It found that there are two primary reasons for the high effectiveness of the proposed technique in presplitting hard coal and rock. First, the fracture water enables much more efficient transfer of dynamic load due to its incompressibility. Second, the subsequent expansion of water can further split the rock by compression. A mechanical model was used to reveal how the process of confined blasting in water-filled deep holes presplit roof. Moreover, practical implementation of this technique was found to improve the structure of hard, thick roof and prevent strong rock pressure, demonstrating its effectiveness in roof control.

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Numerical analysis of rock fracturing by gas pressure using the extended finite element method

Cited by 75 publications

References 31 publications

Experimental Study on High‐Pressure Air Blasting Fracture for Coal and Rock Mass

Experimental Study on High‐Pressure Air Blasting Fracture for Coal and Rock Mass

Optimization of ring blasting in sublevel stoping gold mine

Application of Confined Blasting in Water-Filled Deep Holes to Control Strong Rock Pressure in Hard Rock Mines

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