Abstract
Since the cutting seam cartridge has sound directional breaking effect, in order to explore its blasting wave mechanism, an experimental study was conducted on the blast wave of a cutting seam cartridge using a high-speed laser schlieren system and air overpressure test system. The research results show that during cartridge explosion, the cutting seam pipe can effectively control the energy release and detonation gas dynamic behaviors. Additionally, the cartridge blast wave and the detonation gas remain highly symmetrical in expansion form. The blast wave first propagates along the cutting seam direction, and the detonation gas initially expands from the seam in the direction of the cutting seam. The pressure in the cutting seam direction is higher than that in the noncutting seam direction. The blast wave change of the whole flow field of the cutting seam cartridge was numerically simulated and was basically consistent with the results of the schlieren test in distribution form. The presence of a cutting seam prolongs the blast wave effect. During expansion of the cutting seam pipe under the influence of a blast wave, the inner wall of the cutting seam pipe is mainly subject to tensile stress. When the tensile force applied to the inner wall reaches the local yield limit, the cutting seam pipe fails.
Highlights
Blasting technology with directional control for a cutting seam cartridge is widely and effectively applied in engineering fields like deep rock projects, tunnel excavation, slope excavation, and precious stone mining [1,2,3]
At 20 μs, the blast shock wave at two cutting seams expanded rapidly along the two cutting seam directions, with the blast waves distributed in the “spindle” shape at the two seams
At 60 μs, the detonation gas started to separate from the blast shock wave, and the detonation gas and the shock wave still propagate synchronously in that direction
Summary
Blasting technology with directional control for a cutting seam cartridge is widely and effectively applied in engineering fields like deep rock projects, tunnel excavation, slope excavation, and precious stone mining [1,2,3]. E cutting seam cartridge is used to control the propagation direction of explosion shock wave and detonation gas, to achieve directionally controlled detonation. Yang et al [6,7,8,9] studied the dynamic process of use of a cutting seam cartridge driving crack expansion with dynamic caustics and performed SEM scanning of the fracture surface to study the damage mechanism. Most studies of blast wave behavior of a cutting seam cartridge have mostly relied on extrapolation from explosive detonation theory and there has been no systematic experimental study of the blast wave behavior of a cutting seam cartridge. Experiment and numerical analysis were combined to describe the dynamic evolution mechanism of the blast wave of a cutting seam cartridge
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