RESEARCHING THE COMPATIBILITY OF NITROCELLULOSE WITH GAMMA-POLYOXYMETHYLENE
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Energy materials; Compatibility; γ-polyoxymetylen; -POM; DSC; TGA.Abstract
The article presents the research results in which VST, DSC, and TGA were used to study the compatibility of g-POM and Nitrocellulose No3. The results show that g-POM is completely compatible with Nitrocellulose No3. The findings act as an important foundation for designing and manufacturing Nitrocellulose and nitroglycerine-based energy material.
References
[1]. Leo Reich, “Compatibility of polymers with highly energetic materials by DTA: Part I”, Thermochimica Acta (1973), Vol 5, pp. 433-442.
[2]. Leo Reich, “Compatibility of polymers with highly energetic materials by DTA: Part II”, Thermochimica Acta (19740, Vol 8, pp. 399-408.
[3]. Maria Alice C. M., Elizabeth C. M., Koshun Iha, “Studies on compatibility of energetic materials by thermal methods”, Journal of Aerospace Technology and Management, 2010, Vol 2, N. 1, pp. 53-58.
[4]. Klerk W. P. C., et. al., “Compatibility testing of energetic materials, which technique?”, Journal of Thermal Analysis and Calorimetry (1999), Vol. 56, pp. 1123-1131.
[5]. STANAG 4147 (Edition 2) (2001) – “Chemical comatibility of ammunition coponents with explosives (non – nuclear applications)”, North Atlantic Treaty Organization (NATO), pp. D31-D35, D47-D50.
[6]. Norman E, B., Vincent K. C., “Compatibility of explosives with polymers (III)”, Plastics Technical Evaluation Center (1971), 84 p.
[7]. Ляпин Н.М. и др, “Ингибиторы горения (флегматизаторы) нитроцеллюлозных порохов”, Химия и компьютерное моделирование. Бутлеровские сообщения (2003), № 1, С. 37-40.
[8]. Фиошина М.А., Русин Д.Л, “Основы химии и технологии порохов и твердых ракетных топлив”, Москва (2001), 207 C.
[9]. Берлин Ал. и др. “Полиоксиметилены”. Mосква, Наука (2008), 286 с.
[10]. Dương Ngọc Cơ, Phạm Văn Toại, Nguyễn Mạnh Tường, Lê Duy Bình, Phạm Kim Đạo, “Nghiên cứu ảnh hưởng của -Polyoxymethylene đến nhiệt lượng cháy, tốc độ cháy và thể tích khí cháy của thuốc phóng hai gốc trên cơ sở nitroxenlulo và NG”, Tạp chí Hóa học (2020), T.58, số 5E1,2, pp. 121-125.