Explosion resistance of engineering munitions with pin and tension sensors of the target
Abstract
The purpose of the work: assessment of the impact of the explosive shock wave on mine-explosive barriers and explosive objects with pin and tensile (break-off) sensors of the target during nuclear and conventional explosions, providing proposals for increasing their explosion resistance.
Research method: system analysis, calculation of dependencies.
Research results: proposed methods of assessing the impact of an explosive shock wave on mine-explosive barriers and explosive objects with pin and tensile (rupture) target sensors in nuclear and conventional explosions, providing proposals for increasing their explosion resistance.
The theoretical value of the research: taking into account the assessment of the impact of an explosive shock wave on mine-explosive barriers allows you to make an appropriate decision when installing them to ensure survivability, and taking into account the suggestions made to increase the explosion resistance of engineering munitions and their detonators to increase the effectiveness of their use.
Type of article: descriptive and research.
Downloads
References
Operational task (2019) General requirements for mechanized means of overcoming mine-explosive barriers / S. A. Tsybulya, V. O. Roschyn, V. M. Aborin and others. // Lviv: NASV. 112 p. Ex. No. 3184 dated 05.29.2019.
MCR. Encyclopedia of weapons. [Date accessed 29 January 2024] Weapons: Retrieved from : http://eragun.org/heavy-armament/mcr_tral.html
Kotsyruba V.I. (2013). Improvement of the mathematical model of detection of explosive objects by the radio wave method. Science and technology of the Air Force of the Armed Forces of Ukraine. No. 1 (10). рр. 163-166.
Guslyakov O.M. (2013). Improved mathematical model of detection of explosive devices by the induction method - Kyiv. no. 42. рр. 19-27.
Ftemov Yu. O. (2020). Recommendations for covering the interpositional space, taking into account the measures of early preparation of the territory for defense. Weapon systems and military equipment. NASV, Lviv. Vol. 64, no. 4. рр. 43–48.
Remez N.S., Ivanova I.A. (2015). Numerical modeling of the dynamic interaction of the seismic blast wave with the soil base and the building. Basics and foundations: Interdepartmental scientific and technical collection. Kyiv: KNUBA. Vol. 37. рр. 211–217.
Sydorenko V. L., Azarov S. I. (2008). Calculation of the effects of an explosive shock wave on a person during an explosion at an ammunition warehouse. Weapon systems and military equipment. No. 1. рр. 70-73.
Boyko V.V. (2003). The criteria for assessing the dangerousness of blast waves on buildings are weakened by cracks. Problems of labor protection in Ukraine. no. 7. рр. 97–104.
Directory. TM-57 anti-tank mine. [Date of access January 29, 2024]. Retrieved from : https://sappers.com.ua/dovidnyk/miny/protytankovi-protyhusenychni/tm-57
Abstract views: 175 PDF Downloads: 162
Copyright (c) 2024 Viacheslav Nagachevskyi, Sergyi Holushko, Denys Dykyi
This work is licensed under a Creative Commons Attribution 4.0 International License.
The authors agree with the following conditions:
1. Authors retain copyright and grant the journal right of first publication (Download agreement) with the work simultaneously licensed under a Creative Commons Attribution License that allows others to share the work with an acknowledgment of the work's authorship and initial publication in this journal.
2. Authors have the right to complete individual additional agreements for the non-exclusive spreading of the journal’s published version of the work (for example, to post work in the electronic repository of the institution or to publish it as part of a monograph), with the reference to the first publication of the work in this journal.
3. Journal’s politics allows and encourages the placement on the Internet (for example, in the repositories of institutions, personal websites, SSRN, ResearchGate, MPRA, SSOAR, etc.) manuscript of the work by the authors, before and during the process of viewing it by this journal, because it can lead to a productive research discussion and positively affect the efficiency and dynamics of citing the published work (see The Effect of Open Access).
