The effect of hydrated alumina and triphenyl phosphate on the flame-retardance and thermal stability of the acid anhydride-cured epoxy resin was studied by thermogravimetry and limiting oxygen index determination. The results show that both the hydrated alumina and triphenyl phosphate act as flame-retardants for epoxy resin in gas phase and display condensed phase flame-retardant synergism when they are used together. However, they have little influence on the cured resin’s thermal stability.
Weidong Xiao, Peixin He and Changwang Wang (1999). Study on the flame-retardancy and heat endurance of the cured epoxy resin flame-retarded by red phosphorous and hydrated alumina. Polymer Materials Science and Engineering, 15(3): 105-108.
2.
Weidong Xiao and Jianzong Li (1992). Influence of flame-retardants containing bromine and phosphorus on the flame-retardation and heat endurance of the cured epoxy resin. Polymer Materials Science and Engineering, 8(3), 89-93.
3.
Weimin Sui, Xiangan Huaang and Peilan Chen (1990). Flame-retarded Fiber and Textiles. Beijing, China: Textiles Industrial Publishing House, p. 52.
4.
Arthur H. Landrock (1983). Handbook of Plastics Flammability and Combustion Toxicology. New Jersey, USA: Noyes Publications. p. 200.
5.
Geuskens, G. (1978). Degradation and Stability of Polymers. London: Applied Science Publisher. p. 77.
6.
Jingfa Den (1984). Introduction to Principles of Catalysis. Changchun, Jilin. China: People Publisher. p. 445.
