ABSTRACT
In recent years, the use of Acrylonitrile-ButadieneStyrene (ABS) is becoming more and more dramatic because of its chemical resistance, good mechanical properties, and processing advantages (S.F. Wang, 2002). However, its relatively high flammability, accompanied by the emission of smoke and melt dripping during combustion, restricted its further application in the related fields of building materials and electrical products (N.F. Attia, 2014). Consequently, how to improve its fire resistance and thermal stability is a bottleneck for extending the massive use of ABS to most applications.
