Experimental Assessment and Justification of Measures to Ensure the Safety and Sustainability of the Functioning of Critical Elements of Hydraulic Structures

Q3 Engineering
V. Sednev, S. Kopnyshev, R. Klyuev
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引用次数: 0

Abstract

The most important scientific and practical task is the design and creation of safe, reliable, and durable hydraulic structures, which during operation can be subjected to various external influences. It is especially difficult to predict dynamic loads resulting from the unauthorized activities of third parties. Such incidents can interfere with the functioning of structures, lead to their destruction and, as a result, to catastrophic consequences for the economy, the environment, and the population. The results are considered related to the experimental studies of the penetrating action of small arms bullets into various materials. The studies were conducted for verifying the reliability of the results of a theoretical assessment of the penetrating effect of bullets. The possibility was considered related to the manufacturing protective screens in the field conditions, which guarantees non-penetration of critical elements of hydraulic structures by a bullet. As the main striking element, a bullet of a rifle cartridge 7,62×54R is considered. Experimental studies included a series of experiments with different targets. The number of shots on one target did not exceed 27, while the absence of through holes made it possible to speak of a 90 % confidence probability of non-penetration of the tested protective structure. Results of the experimental study showed that to ensure impenetrability, it is sufficient to use steel 2–3 mm thick, wood (pine) 18 mm or 250 mm of sand. In theoretical calculations, these values are obtained by 20–25 % more. Perhaps such discrepancies are due to the fact that the indenter in the model is represented by an absolutely solid body, while the bullets with a deformable steel core were used in the experiments. The algorithm proposed by the authors allows to choose a rational composition of the protective structure.
确保水工构筑物关键部件功能安全和可持续性措施的试验评估和论证
最重要的科学和实际任务是设计和建造安全、可靠和耐用的水工结构,这些水工结构在运行过程中可以受到各种外部影响。预测由第三方未经授权的活动引起的动态负载尤其困难。这类事件会干扰建筑物的功能,导致建筑物的破坏,从而给经济、环境和人口带来灾难性的后果。这些结果被认为与轻武器子弹穿透各种材料的实验研究有关。进行研究是为了验证子弹穿透效果理论评估结果的可靠性。这种可能性被认为与在现场条件下制造防护屏有关,这种防护屏可以保证水工结构的关键部件不被子弹击穿。作为主要打击元素,一颗子弹的步枪子弹7,62×54R被考虑。实验研究包括一系列针对不同目标的实验。在一个目标上的射击次数不超过27次,而没有穿洞使得有可能说测试的防护结构没有穿透的置信概率为90%。实验研究结果表明,为了保证不透气性,使用2-3毫米厚的钢材、18毫米厚的木材(松木)或250毫米厚的砂石就足够了。在理论计算中,这些值要高出20 - 25%。这种差异可能是由于模型中的压头是用绝对实心体表示的,而实验中使用的是具有可变形钢芯的子弹。作者提出的算法允许选择合理的防护结构组成。
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来源期刊
Bezopasnost'' Truda v Promyshlennosti
Bezopasnost'' Truda v Promyshlennosti Environmental Science-Environmental Science (miscellaneous)
CiteScore
1.00
自引率
0.00%
发文量
110
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