乙氧基-苯氧基取代聚磷腈弹性体的合成及其热性能研究

以氨基磺酸为催化剂，五氯化磷和氯化铵为原料，“一步法”直接合成了聚二氯磷腈中间体。随后以乙醇钠、苯酚钠为亲核试剂进行取代反应，分别合成了乙氧基全取代聚磷腈、苯氧基全取代聚磷腈和乙氧基苯氧基混合取代聚磷腈。采用核磁磷谱和红外光谱表征了聚磷腈产物的结构，并通过热重分析仪和差示扫描量热法评价了产物的热性能，结果表明目标产物为乙氧基苯氧基混合取代聚磷腈，数均分子量可达10⁵，玻璃化转变温度为-11℃，初始热分解分度为281℃。

Synthesis of poly (ethoxy-phenoxyphosphazene) and its thermal performance

Polydichlorophosphazene (PDCP) has been directly synthesized from PCl₅ and NH₄Cl by a one-pot reaction catalyzed by sulfamic acid. Poly(diethoxyphosphazene), poly(diphenoxyphosphazene) and the mixed-substituent poly(ethoxyphenoxyphosphazene) were prepared by substitution reactions of PDCP with sodium ethoxide and/or sodium phenoxide as nucleophilic reagents. Their structures were characterized by ³¹P nuclear magnetic resonance spectroscopy and infrared spectroscopy. Their thermal properties were investigated by thermogravimetric analysis and differential scanning calorimetry. The results indicated that the optimum product was a mixed substituent polyphosphazene with number average molecular weight of 10⁵, which had a glass transition temperature of -11℃ and initial decomposition temperature of 281℃.