Synthesis and properties of silicon-containing poly(diethynylbenzen-co-phenoxyphenoxybenzenediacetylene)s

Shuyue Liu, Shuaikang Lv, Changjun Gong, Wanli Xv, Junkun Tang, F. Huang
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Abstract

Good mechanical properties, heat resistance and processability are the basic requirements of matrix resins for high performance heat resistant composites. The existing two types of silicon-containing arylacetylene resins, poly (silylene arylacetylene) (PSA) and poly (silane arylether arylacetylene) (PSEA), cannot balance these three requirements well. To achieve this goal, an attempt was made to synthesize a copolymerized resin containing both diethynylbenzene and diynyl arylether structures in the main chain, silicon-containing poly (diethynylbenzene-co-phenoxyphenoxybenzenediacetylene). By controlling the amount of 1,3-diethynylbenzene ( m-DEB) and 1,3-bis(4′-ethynylphenoxy)benzene ( pmp-BEPB), several random copolymerized resins with various ratios of m-DEB to pmp-BEPB were synthesized by the Grignard reactions. The results show that the introduction of m-DEB could effectively reduce the viscosity of the resin, and thermal stability of the cured resin is improved, but the mechanical strength of the cured resin is slightly reduced. The copolymerized resin has good overall performance when the amount of m-DEB and pmp-BEPB is equal. The processing window of the resin is 56∼169°C, the flexural strength and modulus of the cured resin are 32.9 MPa and 2.7 GPa, respectively, and the temperatures of 5% weight loss (Td5) of the cured resin is 589°C in nitrogen.
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含硅的聚(二乙炔基苯-共苯氧基苯二乙炔)的合成与特性
良好的机械性能、耐热性和可加工性是高性能耐热复合材料对基体树脂的基本要求。现有的两种含硅芳基乙炔树脂,即聚(硅烷基芳基乙炔)(PSA)和聚(硅烷芳基醚芳基乙炔)(PSEA),无法很好地兼顾这三个要求。为了实现这一目标,我们尝试合成了一种主链中同时含有二乙炔基苯和二炔基芳基醚结构的共聚树脂--含硅聚(二乙炔基苯-共苯氧基苯氧基苯二乙炔)。通过控制 1,3-二乙炔基苯(m-DEB)和 1,3-双(4′-乙炔基苯氧基)苯(pmp-BEPB)的用量,利用格氏反应合成了几种 m-DEB 与 pmp-BEPB 不同比例的无规共聚树脂。结果表明,m-DEB 的引入能有效降低树脂的粘度,提高固化树脂的热稳定性,但固化树脂的机械强度略有降低。当 m-DEB 和 pmp-BEPB 的用量相同时,共聚树脂具有良好的综合性能。树脂的加工窗口温度为 56∼169°C,固化树脂的弯曲强度和模量分别为 32.9 MPa 和 2.7 GPa,固化树脂在氮气中失重 5%的温度(Td5)为 589°C。
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