Research in the manufacture of graphite-carbon composite materials for application in the manufacturing of seal ring

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Authors

  • Nguyen Tien Manh (Corresponding Author) Institute of Chemistry and Materials, Academy of Military Science and Technology
  • Doan Van Phuc Institute of Chemistry and Materials, Academy of Military Science and Technology
  • Nguyen Anh Tuan Faculty of Basic Science, Air Defence-Air Force Academy

DOI:

https://doi.org/10.54939/1859-1043.j.mst.96.2024.92-98

Keywords:

Seal ring; Graphite-carbon composite materials; Low friction materials; Abrasion resistance materials.

Abstract

The article presents some results in research on the manufacture and evaluation of composite materials based on graphite-carbon oriented applications in the manufacture of seal ring. Composite materials are manufactured using a 3-step process: 1. Hot pressing of the mixture from phenolformadehyde resin and graphite-carbon powder mixture; 2. Sinter at a temperature of about 900 oC for 8 hours to coke the resin; 3. After coking, adsorb the product with epoxy resin at a content of (4-5)%. The material after manufacturing has a density of (1.82 ± 0.04) g/cm3; hardness (105.1 ± 2) HRF; friction coefficient (0.1647 ± 0.008); abrasion (48.2 ± 1.6) µm. The results of analysis and evaluation show that the manufactured material has physical and mechanical properties equivalent to the material sample produced in Russia, and can be used in the manufacture of the seal rings.

References

[1]. “Двигатели В-2 и В-6, Техническое описание”, М.: Военное издательство, (1975).

[2]. Nguyễn Công Lý, Nguyễn Hoàng Vũ. "Nghiên cứu thiết kế, chế tạo khớp nối phục vụ việc thử nghiệm động cơ diesel B2 trên bệ thử AVL-ETC", Tạp chí Giao thông vận tải, 32-33, (2014).

[3]. Nhà máy Z153/TCKT, “Tài liệu kỹ thuật và QTCN sửa chữa động cơ diesel B2-B6”.

[4]. Nau B.S. “Research in mechanical seals”. Proc. Instn Mech. Engrs, Part C, 204 (C6), 349-376, (1990). DOI: https://doi.org/10.1243/PIME_PROC_1990_204_117_02

[5]. Мигунов В.П. и др. “Износостойкие и антифрикционные материалы для узлов трения”. ВИАМ/1982-198547.

[6]. Paxton, R. and Shobert, W, “Carbon-Graphites for Aerospace Seals", SAE Technical Paper 650302, (1965). DOI: https://doi.org/10.4271/650302

[7]. Г.С. Петров, А. Н. Левин, Темореактивные смолы и пластические смолы, Гос. научно - техн. изд, М . (1959).

[8]. ГОСТ 18694-80. “Смолы фенолoфoмaлдегидные твёрдые”.

[9]. Hồ Ngọc Minh, Đoàn Văn Phúc. “Chế tạo, nghiên cứu đặc trưng, tính chất của nhựa epoxy đóng rắn bằng hợp chất cơ titan và một số hợp chất amin”. Tạp chí Hóa học, 56(3), 401-406, (2018).

[10]. Комков М. А., Тарасов В. А. “Влияние вязкости связующего в пропиточной ванне на пористость композита при мокром способе намотке”. Наука и Образование. МГТУ им. Н.Э. Баумана. Электрон. журн. 2014. № 12. С. 192–199. DOI: 10.7463/1214.0745284. DOI: https://doi.org/10.7463/1214.0745284

[11]. Триэтаноламинтитанат (ТЭАТ-1). ТУ 6-09-11-2191-93.

Published

25-06-2024

How to Cite

Nguyễn, T. M., Đoàn Văn Phúc, and Nguyễn Anh Tuấn. “Research in the Manufacture of Graphite-Carbon Composite Materials for Application in the Manufacturing of Seal Ring”. Journal of Military Science and Technology, vol. 96, no. 96, June 2024, pp. 92-98, doi:10.54939/1859-1043.j.mst.96.2024.92-98.

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Section

Chemistry, Biology & Environment

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