Analysis and Testing of Combined Blast Inhibitors

“…Numerical analysis [1,2,[5][6] and experimental results [1][2][3][4][5][6][7] indicate that the absorption of explosion energy by such multiphase material leads to a significant (sometimes in dozens of times) decrease in the amplitude (blast overpressure) of the blast wave and, simultaneously, to a noticeable (in several times) decrease in the pressure impulse of its positive phase. As a result, as the corresponding damage diagrams show [11][12], it is possible to reduce the damaging effect of the blast wave to an acceptable (safe for people and structures) level at a distance of 2-3 meters from the epicenter of a condensed high explosive (HE) up to several kilograms of TNT equivalent mass (kg TNT). The phenomenon of suppression of the blast-wave effects by relaxation multiphase material of abnormally high compressibility (Gelfand-Silnikov effect [6]) manifests itself especially clearly when it is necessary to provide explosion protection in confined spaces, under conditions of multiple reflection, interaction (with amplification) and focusing of shock and blast waves [9].…”

“…To reliably describe the parameters of blast protective devices, allowing one to determine its effective mass, composition and location of blast-absorbing structures made of multiphase relaxation media, it is necessary to select a mathematical model that adequately describes the influence of a highly compressible relaxation material on a strong shock wave. In addition, it is necessary to evaluate how the effectiveness of blast wave suppression depends of the amount ("plug size" [10][11][12][13]) of the relaxation media, the location of this "plug" and the density of this working multiphase material.…”

Simulation of an explosion-proof bin made of relaxation material

“…Numerical analysis [1,2,[5][6] and experimental results [1][2][3][4][5][6][7] indicate that the absorption of explosion energy by such multiphase material leads to a significant (sometimes in dozens of times) decrease in the amplitude (blast overpressure) of the blast wave and, simultaneously, to a noticeable (in several times) decrease in the pressure impulse of its positive phase. As a result, as the corresponding damage diagrams show [11][12], it is possible to reduce the damaging effect of the blast wave to an acceptable (safe for people and structures) level at a distance of 2-3 meters from the epicenter of a condensed high explosive (HE) up to several kilograms of TNT equivalent mass (kg TNT). The phenomenon of suppression of the blast-wave effects by relaxation multiphase material of abnormally high compressibility (Gelfand-Silnikov effect [6]) manifests itself especially clearly when it is necessary to provide explosion protection in confined spaces, under conditions of multiple reflection, interaction (with amplification) and focusing of shock and blast waves [9].…”

“…To reliably describe the parameters of blast protective devices, allowing one to determine its effective mass, composition and location of blast-absorbing structures made of multiphase relaxation media, it is necessary to select a mathematical model that adequately describes the influence of a highly compressible relaxation material on a strong shock wave. In addition, it is necessary to evaluate how the effectiveness of blast wave suppression depends of the amount ("plug size" [10][11][12][13]) of the relaxation media, the location of this "plug" and the density of this working multiphase material.…”

Simulation of an explosion-proof bin made of relaxation material

“…The above-mentioned reinforced structures can help us not only to strengthen buildings, but also to develop the combined blast protection devices (so-called blast inhibitors [1][2][3]) which combine energy-absorbing features of multiphase relaxation media [4][5][6] with durability of solid materials [7][8][9][10].…”

Numerical simulation of damage to the deformed state of the coating slab of a special structure

“…The primary purpose of using blast localizers is to decrease the characteristic parameters of blast pressure waves which propagate from blast epicenter (HE charge) using the simplest, mobile means that do not require complex technical actions for their implementation [8][9][10]. Blast energy suppression devices (localizer devices) are an integral tool for ensuring safety against the threat of explosion.…”

Blast suppression with water barriers