Optimum preparation of organopolysilazane composite coatings and their role in protecting combustible cartridge cases

Abstract

A series of organopolysilazane (OPSZ) composite coatings were synthesized via a grafting reaction between OPSZ and epoxy resin, which were applied to protect the surfaces of combustible cartridge cases. The chemical compositions were characterized by Fourier-transform infrared spectroscopy and X-ray photoelectron spectroscopy. The results of heat-resistance tests indicated that the optimum OPSZ composite coating could prevent the combustible cartridge cases from burning for 175.56 s at 250 °C. The glass transition temperatures (T_g) of the OPSZ composite coatings were in the range of 254.7–454.0 °C. The results indicated that the OPSZ composite coatings could effectively improve the heat resistance of combustible cartridge cases. Based on scanning electron microscopy images after saltwater exposure tests, the saltwater absorption rate, and the water contact angle, the OPSZ composite coatings could effectively improve the environmental adaptability of combustible cartridge cases. In this study, the ceramic precursor OPSZ, as a protective material, provides a novel way to fabricate various coatings to protect combustible cartridge cases from high temperatures, environmental humidity, and corrosive air.