Study of the Rock Crack Propagation Induced by Blasting with a Decoupled Charge under High In Situ Stress

Li, Xudong; Liu, Kewei; Yang, Juan

doi:10.1155/2020/9490807

Cited by 12 publications

(9 citation statements)

References 53 publications

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“…To dismantle with a small amount of SPC agent, it is better to propagate the crack flatly using intragranular fracturing to control the crack; the crack can easily stop the resistance by breaking the grain boundaries. Whether cracks penetrate the aggregate or propagate along the boundary is an important problem for future research and requires theoretical analysis [ 25 , 26 , 27 ]. In the future, an appropriate strength should be achieved at the interface surface, and concrete with high strength and easy fracture control is desired.…”

Section: Resultsmentioning

confidence: 99%

Dismantling of Reinforced Concrete Using Steam Pressure Cracking System: Drilling and Crack Propagation

et al. 2023

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This study investigated a new dismantling system for concrete structures using a steam pressure cracking agent. We improved the mechanical systems such that it can drill through reinforcing steel bars. Therefore, the control method of the system and shape of the drill tip were improved. When the drill tip is stuck with chips and stopped, it is automatically pulled out and reinserted to recover the rotation. By changing the tip angle of the drill bit from 75° to 90°, it became possible to cut reinforcing bars, which were difficult to cut previously. In addition, we designed a crawler-type mechanical system and improved it such that it can be moved to the appropriate position and operated at any angle. This study revealed that the energy required for the drilling process accounts for more than 90% of the total dismantling energy. Through experiments using an impact hammer drill and observations of fracture surfaces using a three-dimensional scanner, we analysed the characteristics of reinforced concrete. In addition, the feasibility of the design for dismantling reinforced concrete was confirmed based on the determined energy associated with crack propagation.

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Section: Resultsmentioning

confidence: 99%

Dismantling of Reinforced Concrete Using Steam Pressure Cracking System: Drilling and Crack Propagation

et al. 2023

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“…Furthermore, they proved that brittleness is an inherent physical property that affects material crushing. Li et al [31] revealed the initiation and propagation processes of rock cracks under elevated in situ stresses and discussed the mechanism of blasting-induced crack evolution under different hydrostatic and nonhydrostatic pressures. Yang et al [32] studied rock damage under the action of in situ stresses and the changes in critical peak particle velocity (PPV) and stress release time.…”

Section: Introductionmentioning

confidence: 99%

Damage Mechanism and Wave Attenuation Induced by Blasting in Jointed Rock

Song

Zhang

et al. 2022

Geofluids

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This work uses a combination of simulations performed via numerical models and field observations studied the attenuation of deep-hole blasting stress waves and the evolution mechanism of cracks in a jointed rock mass. First, we conclude that the larger the joint angle is, the larger is the transmission coefficient and smaller is the fractal dimension. Second, the time difference between the peak stress difference and the maximum principal stress on both sides of the blasting hole in the horizontal direction of the rock mass with joints is relatively large, but there is no significant difference in the vertical direction. Finally, an unjointed-rock-mass model and multiple parallel joint model are established to explore the attenuation of stress waves and damage effect of multiple joint rock mass, it is concluded that the larger the angle, the smaller is the particle peak velocity and amplitude attenuation, and as the number of stress waves passing through the joints increases, the amplitude gradually decreases and the high-frequency amplitude decreases more significantly than the low-frequency amplitude. The research conclusions of this paper further reveal the damage mechanism induced by a blasting stress wave on jointed rock masses and the law of stress wave propagation and attenuation.

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“…With the increase of the lateral pressure coefficient, the extending direction of the tensile damage zone becomes more obvious, which causes a great challenge to the cutting blasting excavation in deep rock masses. Yi, Jayasinghe, Ma and Li [15][16][17][18] used LS-DYNA to investigate the influence of in situ stress on the blast-induced cracks. Their results showed that the crack propagation trends towards the direction of maximum compressive pressure.…”

Section: Introductionmentioning

confidence: 99%

Study on Rock Damage Mechanism for Lateral Blasting under High In Situ Stresses

et al. 2021

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A 3D numerical model was presented to investigate the blast-induced damage characteristics of highly stressed rock mass. The RHT (Riedel, Hiermaier, and Thoma) model in LS-DYNA was used to simulate the blast-induced damage and its parameters were calibrated by a physical model test. Based on the calibrated numerical model, the influences of confining pressure and free surface span on the blast-induced damage characteristics were investigated. The results show that under uniaxial loading, the crater volume increases with confining pressure increases. The uniaxial static load can change the optimal burden and the critical embedding depth of charge. In stressed rock, the variation law of the crater shape affected by radial tensile fractures is opposite to that affected by reflected tensile fractures. Under the biaxial static load, the crater volume of the borehole placed on the side of the max static load is greater than the other side. The explosion crater can be improved by increasing the free surface span on the same side. Finally, it is suggested that the blasting efficiency can be improved by preferentially detonating the charge on the side of the max static load, and then the charge on the other side can be detonated with a wider free surface span.

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Study of the Rock Crack Propagation Induced by Blasting with a Decoupled Charge under High In Situ Stress

Cited by 12 publications

References 53 publications

Dismantling of Reinforced Concrete Using Steam Pressure Cracking System: Drilling and Crack Propagation

Dismantling of Reinforced Concrete Using Steam Pressure Cracking System: Drilling and Crack Propagation

Damage Mechanism and Wave Attenuation Induced by Blasting in Jointed Rock

Study on Rock Damage Mechanism for Lateral Blasting under High In Situ Stresses

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