炸药化学标记提高爆破作业安全性

D.A. Bayseytov, A. A. Prikhodko, B.Zh. Shirinbekova, B.U. Bayzakova, E. L. Iovleva
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引用次数: 0

摘要

本文致力于开发一种工业炸药标记组合物,以提高爆破安全性。PMS-10和PMX-200级的聚甲基硅氧烷液体被选为工业炸药的标记标识符,即使在爆炸后,也可以通过爆炸中心的残留土壤碎片或其他材料进行识别。聚甲基硅氧烷流体非常耐热,燃烧过程非常困难,它们几乎不受水生环境的影响,大多数化学和物理因素都会破坏普通有机材料。实验测定了聚甲基硅氧烷液体PMS-10和PMX-200的物理化学参数。基于这些结果,选择具有线性链的聚甲基硅氧烷液体PMX-200作为炸药组合物中的标记添加剂。它能够承受比PMS-10聚甲基硅烷流体更高的温度效应,并且分解较少,并与爆炸产物相互作用。SIM-K标记是在聚甲基硅氧烷液体PMX-200的基础上开发的,它可以使炸药可视化并确定所需的识别信息。在Orika Kazakhstan JSC的工艺工厂,在不干扰工艺流程的情况下,通过滴喷将标记组合物引入ANFO炸药中。对以PMX-200聚甲基硅氧烷液体为基料的ANFO炸药进行了现场试验。在不违反多组分炸药制造工艺的情况下,将标记添加剂引入多组分爆炸物的成分中,对该技术进行了测试。
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Chemical Marking of Explosives to Improve the Safety of Blasting Operations
The article is devoted to the development of a marking composition for industrial explosives to improve the safety of blasting. Polymethylsiloxane liquids of PMS-10 and PMX-200 grades were chosen as a marker-identifier of industrial explosives, which can be identified even after the explosion by residual fragments of soil or other materials from the epicenter of the explosion. Polymethylsiloxane fluids are very heat-resistant, the combustion process takes place with great difficulty, they are little affected by the aquatic environment, most chemical and physical factors that destroy ordinary organic materials. The experiments were carried out to determine the physicochemical parameters of polymethylsiloxane liquids PMS-10 and PMX-200. Based on these results, the polymethylsiloxane liquid PMX-200 with linear chains was chosen as a marking additive in the composition of explosives. It is able to withstand a higher-temperature effect than the PMS-10 polymethylsigsane fluid, and will be less disintegrate, and interact with the products of the explosion. The SIM-K marker, made on the basis of polymethylsiloxane liquid PMX-200, was developed, which allows to visualize the explosive and determine the required identification information. At the technological plant of Orika-Kazakhstan JSC, without disturbing the technological process, a marking composition was introduced into the ANFO explosive by drop spraying. Field tests of the ANFO explosive with a marking composition based on PMX-200 polymethylsiloxane liquid were carried out. The technology was tested related to introduction of marking additives into the compositions of multicomponent explosives without violating the technological process of their manufacture.
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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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