共聚物
高分子科学
材料科学
化学
高分子化学
聚合物
复合材料
作者
Yang Feng Anders See,Sreekumar Pisharath,Yew Jin Ong,Chor Yong Tay,Huey Hoon Hng
标识
DOI:10.1016/j.reactfunctpolym.2022.105415
摘要
The development of a novel energetic block co -polymer of Glycidyl Azide Polymer (GAP) and the fluoropolymer (FP) using the Boron trifluoride-tetrahydrofuranate complex/diol initiator system is reported herein. Well-defined compositions of the GAP-FP co -polymers in two different GAP to FP ratios (1:1 & 1:3) were synthesized by tailoring the desired molecular weights of each block in the co -polymer, demonstrating the synthetic versatility of such a co-polymer system. The resultant GAP-FP co-polymers represent a unique hybrid binder system with tunable energy releasing and oxidizing potentials intended for metallized formulations. Thermogravimetric analysis showed that the carbonaceous residue usually formed from the decomposition of GAP could be reduced significantly by the copolymerization with FP. Isoconversional method of kinetic analysis of the GAP-FP copolymers revealed an increasing dependence of the effective activation energy on the extent of conversion. The increasing dependence suggested a mechanism of the competing reactions that were found to be between the reactions of fluoropolymer triggered oxidation and intermolecular crosslinking of the polyimine intermediates formed from GAP decomposition that ultimately resulted in the reduction of the carbonaceous residue. • Block co -polymerization of GAP and FP in different molecular weight ratios. • PECH macroinitiator approach to synthesize PECH-FP co-polymers. • Synthesis of GAP-FP co-polymers. • Thermal analysis of GAP-FP copolymers.
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