Research to manufacture MC-B pyrotechnic composite use for NLP-17 fuse
86 viewsDOI:
https://doi.org/10.54939/1859-1043.j.mst.IPE.2024.152-158Keywords:
Pyrotechnic retardants; MC-B; NLP-17 fuse.Abstract
This paper presents the results of research on manufacturing MC-B pyrotechnics composite use in NLP-17 fuse. The manufactured pyrotechnics have suitable energy characteristics, with a burning time when compressed into the NLP-17 fuse protection structure of 0.10 ÷ 0.13 s. The results showed that the delayed composite potion worked stably. MC-B pyrotechnic delay composite can be applied in the NLP-17 fuse.
References
[1]. Nguyễn Văn Tính, Trần Quang Phát, “Cơ sở hỏa thuật”, NXB Quân đội nhân dân, (2009).
[2]. H.B. Faber, “Military Pyrotechnics”, Government Printing Office, Washington, USA, (1979).
[3]. John A. Conkling, Christopher J. Mocella, “Chemistry of Pyrotechnics: Basic Principles and Theory”, Third Edition, (2019).
[4]. B. Berger, A.J. Brammer, E.L. Charsley, “Thermal analysis studies on the boron-potassium perchlorate-nitrocellulose pyrotechnic system”, J. Therm. Anal. Calori, (1997).
[5]. V.S. Bhinggarkar, P.P. Sane, R.G. Sarawadekar , “Role of silicon in boron-potassium nitrate system”, Defence science journal, 47(3), pp. 365-371, (1997).
[6]. Varsha Bhingarkar, Haridwar Singh, “Influence of cellulosic binders on sensitivity and combustion behaviour of B-KNO3 ignition system”, Defence science journal, 56(3), pp. 345-351, (2006).
[7]. Elischer P.P , Cleal G, Wilson M. “The development of a boron and iron oxide delay system”, Defence science and technology organnisation materials research laboratories, Melbourne, pp. 1-33, (1986).
[8]. Juyoung Oh, Seung-gyo Jang, Jack J.Yoh, “Towards understanding the effects of heat and humidity on ageing of a NASA standard pyrotechnic igniter”, Scientific Reports, No. 9, pp. 1-12, (2019).
[9]. Мельников В.Э, “Современная пиротехника”, Москва, (2014).