Study on preparation and some thermal-mechanical characteristics of composite material based on phenolic/fiberglass
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https://doi.org/10.54939/1859-1043.j.mst.78.2022.126-131Keywords:
Rocket B72; AG-4V; Thermal protection.Abstract
The article presents some results on preparing and determining the mechanical and thermal resistance of composite materials based on phenolic resin/fiberglass, oriented using for the heat-protective layer of the bottom of rocket engine B72. The research results show that the composites based on a modified phenolic resin and heat-resistant fiberglass T11 have higher specific heat and thermal and mechanical strength in comparison with the AG-4V material ГОСТ 20437-89. The test results of the heat-shielding ability through an oxygen-acetylene flame at 2100 °C showed that this material could be used as a heat-shielding layer for the bottom of rocket engine B72.
References
[1]. Управляемый снаряд 9М14М (9М14). Техническое описание. 1966.
[2]. Trần Xuân Tiến, Đoàn Văn Phúc, Trần Ngọc Thanh. “Nghiên cứu xác định vật liệu chế tạo lớp bảo vệ nhiệt cho đáy động cơ hành trình tên lửa B72”. Tạp chí Cơ khí Việt Nam, (1+2), 2019.
[3]. ГОСТ 20437-89. “Материал прессовочный АГ-4. Технические условия”.
[4]. ASTM E285-08 Standard Test Method for Oxyacetylene Ablation Testing of Thermal Insulation Materials (Reapproved 2015).
[5]. А. ф. Николаев, “Синтетические полимеры и пластические массы на их основе”, изд. , химия М. 1964.
[6]. Г.С. Петров, А. Н. Левин, “Темореактивные смолы и пластические смолы”, Гос. научно - техн. изд. , М. 1959.
[7]. ГОСТ 18694-80. “Смолы фенолoфoмaлдегидные твёрдые”.
[8]. Анилин // “Энциклопедический словарь Брокгауза и Ефрона : в 86 т”. (82 т. и 4 доп.). — СПб., 1890—1907.
[9]. Дедюхин В.Г.б Ставров В.П. “Технология прессования и прочность изделий из стеклопластиков”. Издательство «Химия». Москва, 1968.