Studies on Curing of an Aluminized Ammonium Perchlorate Composite Propellant Based on Nitrile Butadiene Rubber Using a Quinol Ether of 1,4-Benzoquinone Dioxime

IF 0.7 4区 工程技术 Q4 CHEMISTRY, APPLIED
Sudhir Singh, Sidharth Raveendran, D. Kshirsagar, M. Gupta, C. Bhongale
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引用次数: 0

Abstract

: The isocyanate-based curing agents used for polyurethane are toxic and hygroscopic in nature. In the present work, an alternate approach was adopted, a reaction between the unsaturated rubber having an α -methylene hydrogen atom and a dinitrosobenzene (DNB) ‒ generating system (quinol ether of 1,4-benzoquinone dioxime, QE) without a catalyst, thus generating a cured system. QE is a novel curing agent for propellant applications which imparts the necessary curing. The curing reaction between nitrile butatadiene rubber (NBR) and quinol ether (QE) was studied by FTIR and the results revealed the formation of anil groups (Ar–C=N). The anil group results from the reaction between NBR and DNB, generated on decomposition of QE. Propellant formulations were prepared with variation of the curing agent from 0.2 to 0.5%. The composition and rheological, mechanical, ballistic and thermal properties of the resulting cured systems were investigated. The viscosity and spreadability were suitable for casting. The tensile strength, modulus, and hardness show an increasing trend and the elongation decreases on varying QE from 0.2 to 0.5% in the propellant. However, all of the compositions showed nearly the same burning rate and pressure exponent. The QE based curing system is non-hygroscopic and has extremely low toxicity. The experimental results revealed that the proposed curing agent may find application in explosives and propellants.
1,4-苯醌二肟醌醚固化丁腈橡胶基铝化高氯酸铵复合推进剂的研究
:用于聚氨酯的异氰酸酯基固化剂具有毒性和吸湿性。本文采用了一种替代方法,即在不需要催化剂的情况下,将含有α -亚甲基氢原子的不饱和橡胶与二硝基苯(DNB)生成体系(1,4-苯并醌二肟的喹啉醚,QE)发生反应,生成固化体系。QE是一种新型的推进剂固化剂,它提供了必要的固化。用红外光谱法研究了丁腈橡胶(NBR)与喹啉醚(QE)的固化反应,结果表明形成了苯基(Ar-C =N)。苯基是由NBR和DNB反应产生的,由QE分解产生。推进剂配方在固化剂的0.2 - 0.5%范围内变化。研究了固化体系的组成、流变学、力学、弹道和热性能。粘度和铺展性能适合于铸造。当推进剂的QE在0.2 ~ 0.5%范围内变化时,合金的抗拉强度、模量和硬度呈上升趋势,伸长率呈下降趋势。然而,所有成分的燃烧速率和压力指数几乎相同。基于QE的固化体系无吸湿性,毒性极低。实验结果表明,该固化剂在炸药和推进剂中具有一定的应用前景。
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来源期刊
Central European Journal of Energetic Materials
Central European Journal of Energetic Materials CHEMISTRY, APPLIED-ENGINEERING, CHEMICAL
CiteScore
1.80
自引率
25.00%
发文量
0
审稿时长
>12 weeks
期刊介绍: CEJEM – the newest in Europe scientific journal on energetic materials It provides a forum for scientists interested in the exchange of practical and theoretical knowledge concerning energetic materials: propellants, explosives and pyrotechnics. The journal focuses in particular on the latest results of research on various problems of energetic materials. Topics: ignition, combustion and detonation phenomenon; formulation, synthesis and processing; analysis and thermal decomposition; toxicological, environmental and safety aspects of energetic materials production, application, utilization and demilitarization; molecular orbital calculations; detonation properties and ballistics; biotechnology and hazards testing CEJEM presents original research and interesting reviews. Contributions are from experts in chemistry, physics and engineering from leading research centers in Europe, America and Asia. All submissions are independently refereed by Editorial Board members and by external referees chosen on international basis.
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